Rv3574 (kstR)

Current annotations:
- TBCAP: (community-based annotations - see table at bottom of page)
- TBDB: HTH-type transcriptional repressor KstR
- REFSEQ: transcriptional regulatory protein TetR-family
- PATRIC: Transcriptional regulator kstR (Rv3574) TetR family
- TUBERCULIST: Transcriptional regulatory protein KstR (probably TetR-family)
- NCBI: Transcriptional regulatory protein KstR (probably TetR-family)
- updated information (H37Rv4):
  - gene name: kstR
  - function: regulates lipid/cholesterol metbolism
  - reference: Kendell (2004) PMID: 17635188
Type: Not Target
Start: 4016484
End: 4017083
Operon:

Trans-membrane region:
Role: I.J.1 - Repressors/activators
GO terms:
- GO:0042803 - protein homodimerization activity (Uniprot)
- GO:0006355 - regulation of transcription, DNA-templated (Uniprot)
- GO:0006351 - transcription, DNA-templated (Uniprot)
- GO:0005829 - cytosol (Uniprot)
- GO:0003700 - DNA binding transcription factor activity (Uniprot)
- GO:0003677 - DNA binding (Uniprot)
- GO:0000976 - transcription regulatory region sequence-specific DNA binding (Uniprot)
Reaction(s) (based on iSM810 metabolic model):
Gene Expression Profile (Transcriptional Responses to Drugs; Boshoff et al, 2004)
Gene Modules extracted from cluster analysis of 249 transcriptomic datasets using ICA
Orthologs among selected mycobacteria
Protein structure: 3mnl
Search for Homologs in PDB

Top 10 Homologs in PDB (as of Nov 2020):

PDB	aa ident	species	PDB title
5UA2	100%	Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv)	Mycobacterium tuberculosis KstR in complex with a 26-bp DNA operator
5UA1	100%	Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv)	Mycobacterium tuberculosis KstR in complex with a 18-bp DNA operator
5CXI	100%	Mycobacterium tuberculosis	Crystal structure of Mycobacterium tuberculosis KstR in complex with 3-oxo-23,24-bisnorchol-4-en-22-oyl-CoA (4-BNC-CoA)
5CXG	100%	Mycobacterium tuberculosis (strain ATCC 25618 / H37Rv)	Crystal structure of Mycobacterium tuberculosis KstR in complex with PEG
5CW8	100%	Mycobacterium tuberculosis	Crystal structure of Mycobacterium tuberculosis KstR in complex with 3-oxo-4-cholesten-26-oyl-CoA
3MNL	100%	Mycobacterium tuberculosis	The crystal structure of KstR (Rv3574) from Mycobacterium tuberculosis H37Rv
5FMP	99%	MYCOBACTERIUM TUBERCULOSIS	KstR, transcriptional repressor of cholesterol degradation in Mycobacterium tuberculosis, bound to the DNA operator
5AQC	99%	MYCOBACTERIUM TUBERCULOSIS	KstR, transcriptional repressor of cholesterol degradation in Mycobacterium tuberculosis, bound to the cholesterol coenzyme A derivative, (25R)-3-oxocholest-4-en-26-oyl-CoA.
3HE0	40%	Vibrio parahaemolyticus	The Structure of a Putative Transcriptional Regulator TetR Family Protein from Vibrio parahaemolyticus.
3BNI	40%	Streptomyces coelicolor A3(2)	Crystal structure of TetR-family transcriptional regulator from Streptomyces coelicolor

Links to additional information on kstR:
- TBDB (updated)
- Phyre2 structure prediction, model: final.casp.pdb (from Mao et al, 2013)
- UniProt
- AlphaFold model
- Vulnerability = -0.433 (from Jeremy Rock's lab)
- KEGG - nucleotide and amino acid sequences of gene
- Mycobrowser
- PATRIC
- BioCyc
- Systems Biology

Amino Acid Sequence

VAVLAESELGSEAQRERRKRILDATMAIASKGGYEAVQMRAVADRADVAVGTLYRYFPSKVHLLVSALGREFSRIDAKTDRSAVAGATPFQRLNFMVGKL
NRAMQRNPLLTEAMTRAYVFADASAASEVDQVEKLIDSMFARAMANGEPTEDQYHIARVISDVWLSNLLAWLTRRASATDVSKRLDLAVRLLIGDQDSA

(Nucleotide sequence available on KEGG)

Additional Information

ESSENTIALITY

MtbTnDB - interactive tool for exploring a database of published TnSeq datasets for Mtb

TnSeqCorr - genes with correlated TnSeq profiles across >100 conditions *new*

Classification	Condition	Strain	Method	Reference	Notes
Non-Essential	Sodium Oleate	H37RvMA	Gumbel	Subhalaxmi Nambi	Probability of Essentiality: 0.000000; 4 non-insertions in a row out of 13 sites
Non-Essential	Lignoceric Acid	H37RvMA	Gumbel	Subhalaxmi Nambi	Probability of Essentiality: 0.000000; 2 non-insertions in a row out of 13 sites
Non-Essential	Phosphatidylcholine	H37RvMA	Gumbel	Subhalaxmi Nambi	Probability of Essentiality: 0.000000; 2 non-insertions in a row out of 13 sites
Non-Essential	minimal media + 0.1% glycerol	H37RvMA	Gumbel	Griffin et al. (2011)	Probability of Essentiality: 0.000000; 1 non-insertions in a row out of 14 sites
Uncertain	minimal media + 0.01% cholesterol	H37RvMA	Gumbel	Griffin et al. (2011)	Probability of Essentiality: 0.937550; 7 non-insertions in a row out of 14 sites
Non-Essential	7H10-glycerol	H37RvMA	TraSH	Sassetti et al. (2003a)
Non-Essential	C57BL/6J mice (8 weeks)	H37RvMA	TraSH	Sassetti et al. (2003b)	Hybridization Ratio: 0.73
Non-Essential	7H09/7H10 + rich media	H37RvMA	MotifHMM	DeJesus et al. (2017)	Fully saturated (14 reps).

TnSeq Data No data currently available.

No TnSeq data currently available for this Target.

RNASeq Data No data currently available.

No RNA-Seq data currently available for this Target.

Metabolomic Profiles No data currently available.

No Metabolomic data currently available for this Target.

Proteomic Data No data currently available.

No Proteomic data currently available for this Target.

Regulatory Relationships from Systems Biology

BioCyc

Gene interactions based on ChIPSeq and Transcription Factor Over-Expression (TFOE) (Systems Biology)

NOTE: Green edges represent the connected genes being classified as differentially essential as a result of the middle gene being knocked out. These interactions are inferred based on RNASeq.

Interactions based on ChIPSeq data

Interactions based on ChIPSeq data (Minch et al. 2014)

Binds To:
- Rv0103c (ctpB) (Direct binding)
- Rv0104 (-) (Direct binding)
- Rv0139 (-) (Direct binding)
- Rv0157A (-) (Direct binding)
- Rv0158 (-) (Direct binding)
- Rv0171 (mce1C) (Direct binding)
- Rv0176 (-) (Direct binding)
- Rv0177 (-) (Direct binding)
- Rv0218 (-) (Direct binding)
- Rv0219 (-) (Direct binding)
- Rv0257 (-) (Direct binding)
- Rv0267 (narU) (Direct binding)
- Rv0327c (cyp135A1) (Direct binding)
- Rv0354c (PPE7) (Direct binding)
- Rv0405 (pks6) (Direct binding)
- Rv0456A (mazF1) (Direct binding)
- Rv0461 (-) (Direct binding)
- Rv0488 (-) (Direct binding)
- Rv0490 (senX3) (Direct binding)
- Rv0499 (-) (Direct binding)
- Rv0503c (cmaA2) (Direct binding)
- Rv0512 (hemB) (Direct binding)
- Rv0551c (fadD8) (Direct binding)
- Rv0552 (-) (Direct binding)
- Rv0642c (mmaA4) (Direct binding)
- Rv0664 (vapB8) (Direct binding)
- Rv0687 (-) (Direct binding)
- Rv0749A (-) (Direct binding)
- Rv0771 (-) (Direct binding)
- Rv0772 (purD) (Direct binding)
- Rv0773c (ggtA) (Direct binding)
- Rv0860 (fadB) (Direct binding)
- Rv0891c (-) (Direct binding)
- Rv0892 (-) (Direct binding)
- Rv0916c (PE7) (Direct binding)
- Rv0937c (mku) (Direct binding)
- Rv0940c (-) (Direct binding)
- Rv0953c (-) (Direct binding)
- Rv0954 (-) (Direct binding)
- Rv0957 (purH) (Direct binding)
- Rv0961 (-) (Direct binding)
- Rv1018c (glmU) (Direct binding)
- Rv1019 (-) (Direct binding)
- Rv1053c (-) (Direct binding)
- Rv1089A (celA2a) (Direct binding)
- Rv1116 (-) (Direct binding)
- Rv1158c (-) (Direct binding)
- Rv1159 (pimE) (Direct binding)
- Rv1161 (narG) (Direct binding)
- Rv1164 (narI) (Direct binding)
- Rv1198 (esxL) (Direct binding)
- Rv1204c (-) (Direct binding)
- Rv1205 (-) (Direct binding)
- Rv1237 (sugB) (Direct binding)
- Rv1265 (-) (Direct binding)
- Rv1339 (-) (Direct binding)
- Rv1343c (lprD) (Direct binding)
- Rv1344 (mbtL) (Direct binding)
- Rv1356c (-) (Direct binding)
- Rv1374c (-) (Direct binding)
- Rv1381 (pyrC) (Direct binding)
- Rv1435c (-) (Direct binding)
- Rv1475c (acn) (Direct binding)
- Rv1482c (-) (Direct binding)
- Rv1503c (-) (Direct binding)
- Rv1527c (pks5) (Direct binding)
- Rv1588c (-) (Direct binding)
- Rv1628c (-) (Direct binding)
- Rv1629 (polA) (Direct binding)
- Rv1646 (PE17) (Direct binding)
- Rv1698 (mctB) (Direct binding)
- Rv1785c (cyp143) (Direct binding)
- Rv1791 (PE19) (Direct binding)
- Rv1804c (-) (Direct binding)
- Rv1823 (-) (Direct binding)
- Rv1894c (-) (Direct binding)
- Rv1912c (fadB5) (Direct binding)
- Rv1913 (-) (Direct binding)
- Rv1957 (-) (Direct binding)
- Rv1960c (parD1) (Direct binding)
- Rv1961 (-) (Direct binding)
- Rv1963c (mce3R) (Direct binding)
- Rv1986 (-) (Direct binding)
- Rv2107 (PE22) (Direct binding)
- Rv2108 (PPE36) (Direct binding)
- Rv2118c (-) (Direct binding)
- Rv2119 (-) (Direct binding)
- Rv2145c (wag31) (Direct binding)
- Rv2194 (qcrC) (Direct binding)
- Rv2222c (glnA2) (Direct binding)
- Rv2243 (fabD) (Direct binding)
- Rv2247 (accD6) (Direct binding)
- Rv2293c (-) (Direct binding)
- Rv2299c (htpG) (Direct binding)
- Rv2307B (-) (Direct binding)
- Rv2346c (esxO) (Direct binding)
- Rv2347c (esxP) (Direct binding)
- Rv2401 (-) (Direct binding)
- Rv2556c (-) (Direct binding)
- Rv2562 (-) (Direct binding)
- Rv2563 (-) (Direct binding)
- Rv2565 (-) (Direct binding)
- Rv2577 (-) (Direct binding)
- Rv2578c (-) (Direct binding)
- Rv2617c (-) (Direct binding)
- Rv2632c (-) (Direct binding)
- Rv2798c (-) (Direct binding)
- Rv2799 (-) (Direct binding)
- Rv2839c (infB) (Direct binding)
- Rv3008 (-) (Direct binding)
- Rv3017c (esxQ) (Direct binding)
- Rv3027c (-) (Direct binding)
- Rv3048c (nrdF2) (Direct binding)
- Rv3111 (moaC1) (Direct binding)
- Rv3124 (moaR1) (Direct binding)
- Rv3150 (nuoF) (Direct binding)
- Rv3151 (nuoG) (Direct binding)
- Rv3269 (-) (Direct binding)
- Rv3348 (-) (Direct binding)
- Rv3370c (dnaE2) (Direct binding)
- Rv3371 (-) (Direct binding)
- Rv3469c (mhpE) (Direct binding)
- Rv3476c (kgtP) (Direct binding)
- Rv3485c (-) (Direct binding)
- Rv3503c (fdxD) (Direct binding)
- Rv3504 (fadE26) (Direct binding)
- Rv3515c (fadD19) (Direct binding)
- Rv3516 (echA19) (Direct binding)
- Rv3521 (-) (Direct binding)
- Rv3526 (kshA) (Direct binding)
- Rv3528c (-) (Direct binding)
- Rv3531c (-) (Direct binding)
- Rv3532 (PPE61) (Direct binding)
- Rv3536c (hsaE) (Direct binding)
- Rv3537 (kstD) (Direct binding)
- Rv3546 (fadA5) (Direct binding)
- Rv3570c (hsaA) (Direct binding)
- Rv3574 (kstR) (Direct binding)
- Rv3597c (lsr2) (Direct binding)
- Rv3616c (espA) (Direct binding)
- Rv3631 (-) (Direct binding)
- Rv3632 (-) (Direct binding)
- Rv3692 (moxR2) (Direct binding)
- Rv3706c (-) (Direct binding)
- Rv3740c (-) (Direct binding)
- Rv3762c (-) (Direct binding)
- Rv3780 (-) (Direct binding)
- Rv3809c (glf) (Direct binding)
- Rv3810 (pirG) (Direct binding)
- Rv3814c (-) (Direct binding)
- Rv3839 (-) (Direct binding)
- Rv3840 (-) (Direct binding)
- Rv3844 (-) (Direct binding)
- Rv3883c (mycP1) (Direct binding)
- Rv3884c (eccA2) (Direct binding)
- Rv0220 (lipC) (Upstream of operon)
- Rv0513 (-) (Upstream of operon)
- Rv0514 (-) (Upstream of operon)
- Rv0553 (menC) (Upstream of operon)
- Rv0554 (bpoC) (Upstream of operon)
- Rv0688 (-) (Upstream of operon)
- Rv0890c (-) (Upstream of operon)
- Rv0915c (PPE14) (Upstream of operon)
- Rv0955 (-) (Upstream of operon)
- Rv1090 (celA2b) (Upstream of operon)
- Rv1157c (-) (Upstream of operon)
- Rv1162 (narH) (Upstream of operon)
- Rv1203c (-) (Upstream of operon)
- Rv1342c (-) (Upstream of operon)
- Rv1345 (mbtM) (Upstream of operon)
- Rv1346 (mbtN) (Upstream of operon)
- Rv1353c (-) (Upstream of operon)
- Rv1354c (-) (Upstream of operon)
- Rv1355c (moeY) (Upstream of operon)
- Rv1474c (-) (Upstream of operon)
- Rv1526c (-) (Upstream of operon)
- Rv1585c (-) (Upstream of operon)
- Rv1586c (-) (Upstream of operon)
- Rv1587c (-) (Upstream of operon)
- Rv1627c (-) (Upstream of operon)
- Rv1959c (parE1) (Upstream of operon)
- Rv2195 (qcrA) (Upstream of operon)
- Rv2196 (qcrB) (Upstream of operon)
- Rv2292c (-) (Upstream of operon)
- Rv2564 (glnQ) (Upstream of operon)
- Rv2566 (-) (Upstream of operon)
- Rv2567 (-) (Upstream of operon)
- Rv2796c (lppV) (Upstream of operon)
- Rv2797c (-) (Upstream of operon)
- Rv2800 (-) (Upstream of operon)
- Rv2836c (dinF) (Upstream of operon)
- Rv2837c (-) (Upstream of operon)
- Rv2838c (rbfA) (Upstream of operon)
- Rv3026c (-) (Upstream of operon)
- Rv3270 (ctpC) (Upstream of operon)
- Rv3468c (-) (Upstream of operon)
- Rv3502c (-) (Upstream of operon)
- Rv3505 (fadE27) (Upstream of operon)
- Rv3522 (ltp4) (Upstream of operon)
- Rv3523 (ltp3) (Upstream of operon)
- Rv3527 (-) (Upstream of operon)
- Rv3529c (-) (Upstream of operon)
- Rv3530c (-) (Upstream of operon)
- Rv3534c (hsaF) (Upstream of operon)
- Rv3535c (hsaG) (Upstream of operon)
- Rv3538 (-) (Upstream of operon)
- Rv3566c (nat) (Upstream of operon)
- Rv3567c (hsaB) (Upstream of operon)
- Rv3568c (hsaC) (Upstream of operon)
- Rv3569c (hsaD) (Upstream of operon)
- Rv3806c (ubiA) (Upstream of operon)
- Rv3807c (-) (Upstream of operon)
- Rv3808c (glfT2) (Upstream of operon)
- Rv3845 (-) (Upstream of operon)
- Rv3882c (eccE1) (Upstream of operon)
Bound By:
- Rv0023 (-) (Direct binding)
- Rv0081 (-) (Direct binding)
- Rv0324 (-) (Direct binding)
- Rv0348 (-) (Direct binding)
- Rv0674 (-) (Direct binding)
- Rv1019 (-) (Direct binding)
- Rv1404 (-) (Direct binding)
- Rv2324 (-) (Direct binding)
- Rv3574 (kstR) (Direct binding)
- Rv3597c (lsr2) (Direct binding)

Interactions based on TFOE data (Rustad et al. 2014)

TBCAP

Tubculosis Community Annotation Project (

Slayden et al., 2013

Rv3574 (kstR)

Property	Value	Creator	Evidence	PMID	Comment
Interaction	Regulatory Rv3504	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3505	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3506	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3516	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3518c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3515c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3498c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3499c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3500c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3501c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3502c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3503c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3492c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3493c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3494c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3495c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3496c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3497c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv1106c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv1059	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv0953c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv0940c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv0927c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv0926c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv2669	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv2668	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv1894c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv1628c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv1627c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv1132	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv1428c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv0223c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv0551c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv0687	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv2800	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv2799	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3573c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3574	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3574	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv0139	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv0138	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv1426c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv1427c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3567c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3568c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3569c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3570c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3571	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3572	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3542c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3543c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3544c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3545c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3546	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3547	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Citation	Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Microbiology (Reading, England) 2010	priyadarshinipriyanka2001	IEP	20167624	Co-expression (Functional linkage)
Interaction	Regulatory Rv3535c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3536c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3537	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3538	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3540c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3541c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3504	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3505	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3506	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3516	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3518c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3515c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3498c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3499c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3500c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3501c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3502c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3503c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3492c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3493c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3494c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3495c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3496c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3497c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv1106c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv1059	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv0953c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv0940c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv0927c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv0926c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv2669	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv2668	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv1894c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv1628c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv1627c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv1132	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv1428c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv0223c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv0551c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv0687	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv2800	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv2799	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3573c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3574	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3574	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv0139	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv0138	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv1426c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv1427c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3567c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3568c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3569c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3570c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3571	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3572	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3542c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3543c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3544c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3545c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3546	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3547	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	priyadarshinipriyanka2001	IEP	17635188	Co-expression (Functional linkage)
Interaction	Regulatory Rv3535c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3536c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3537	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3538	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3540c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3541c	priyadarshinipriyanka2001	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3542c	ahal4789	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3542c	ahal4789	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3542c	ahal4789	IEP		Co-expression (Functional linkage) JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009
Interaction	Regulatory Rv3542c	sourish10	IEP		Co-expression (Functional linkage) JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009
Interaction	Regulatory Rv3542c	sourish10	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3542c	sourish10	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3542c	sourish10	IEP		Co-expression (Functional linkage) JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009
Interaction	Regulatory Rv3542c	ahal4789	IEP		Co-expression (Functional linkage) JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009
Interaction	Regulatory Rv3541c	ahal4789	IEP		Co-expression (Functional linkage) JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009
Interaction	Regulatory Rv3541c	ahal4789	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3541c	ahal4789	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3541c	ahal4789	IEP		Co-expression (Functional linkage) JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009
Interaction	Regulatory Rv3540c	ahal4789	IEP		Co-expression (Functional linkage) JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009
Interaction	Regulatory Rv3541c	sourish10	IEP		Co-expression (Functional linkage) JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009
Interaction	Regulatory Rv3541c	sourish10	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3541c	sourish10	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3541c	sourish10	IEP		Co-expression (Functional linkage) JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009
Interaction	Regulatory Rv3540c	sourish10	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3540c	sourish10	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3540c	sourish10	IEP		Co-expression (Functional linkage) JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009
Interaction	Regulatory Rv3540c	ahal4789	IEP		Co-expression (Functional linkage) SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010
Interaction	Regulatory Rv3540c	ahal4789	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3530c	salluamity1	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3531c	raj252000	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3531c	raj252000	IEP		Co-expression (Functional linkage) P. Golby, J. Nunez et al. Characterization of two in vivo-expressed methyltransferases of the Mycobacterium tuberculosis complex: antigenicity and genetic regulation. Microbiology (Reading, Engl.) 2008
Interaction	Regulatory Rv3527	salluamity1	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3527	salluamity1	IEP		Co-expression (Functional linkage) authors,K. Pethe,DL. Swenson,S. Alonso,J. Anderson,C. Wang,DG. Russell Isolation of Mycobacterium tuberculosis mutants defective in the arrest of phagosome maturation. Proc. Natl. Acad. Sci. U.S.A. 2004
Interaction	Regulatory Rv3529c	salluamity1	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3521	raj252000	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3522	salluamity1	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3522	salluamity1	IEP		Co-expression (Functional linkage) NM. Nesbitt,X. Yang,P. Fontn,I. Kolesnikova,I. Smith,NS. Sampson,E. Dubnau A thiolase of Mycobacterium tuberculosis is required for virulence and production of androstenedione and androstadienedione from cholesterol. Infect. Immun. 2010
Interaction	Regulatory Rv3522	salluamity1	IEP		Co-expression (Functional linkage) authors,R. Van der Geize,K. Yam,T. Heuser,MH. Wilbrink,H. Hara,MC. Anderton,E. Sim,L. Dijkhuizen,JE. Davies,WW. Mohn,LD. Eltis A gene cluster encoding cholesterol catabolism in a soil actinomycete provides insight into Mycobacterium tuberculosis survival in macrophages. Proc. Natl. Acad. Sci. U.S.A. 2007
Interaction	Regulatory Rv3519	salluamity1	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3519	salluamity1	IEP		Co-expression (Functional linkage) authors,D. Alland,DW. Lacher,MH. Hazbn,AS. Motiwala,W. Qi,RD. Fleischmann,TS. Whittam Role of large sequence polymorphisms (LSPs) in generating genomic diversity among clinical isolates of Mycobacterium tuberculosis and the utility of LSPs in phylogenetic analysis. J. Clin. Microbiol. 2007
Interaction	Regulatory Rv3519	salluamity1	IEP		Co-expression (Functional linkage) authors,RD. Fleischmann,D. Alland,JA. Eisen,L. Carpenter,O. White,J. Peterson,R. DeBoy,R. Dodson,M. Gwinn,D. Haft,E. Hickey,JF. Kolonay,WC. Nelson,LA. Umayam,M. Ermolaeva,SL. Salzberg,A. Delcher,T. Utterback,J. Weidman,H. Khouri,J. Gill,A. Mikula,W. Bishai,WR. Jacobs Jr,JC. Venter,CM. Fraser Whole-genome comparison of Mycobacterium tuberculosis clinical and laboratory strains. J. Bacteriol. 2002
Interaction	Regulatory Rv3518c	salluamity1	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3518c	salluamity1	IEP		Co-expression (Functional linkage) authors,D. Alland,DW. Lacher,MH. Hazbn,AS. Motiwala,W. Qi,RD. Fleischmann,TS. Whittam Role of large sequence polymorphisms (LSPs) in generating genomic diversity among clinical isolates of Mycobacterium tuberculosis and the utility of LSPs in phylogenetic analysis. J. Clin. Microbiol. 2007
Interaction	Regulatory Rv3518c	salluamity1	IEP		Co-expression (Functional linkage) authors,RD. Fleischmann,D. Alland,JA. Eisen,L. Carpenter,O. White,J. Peterson,R. DeBoy,R. Dodson,M. Gwinn,D. Haft,E. Hickey,JF. Kolonay,WC. Nelson,LA. Umayam,M. Ermolaeva,SL. Salzberg,A. Delcher,T. Utterback,J. Weidman,H. Khouri,J. Gill,A. Mikula,W. Bishai,WR. Jacobs Jr,JC. Venter,CM. Fraser Whole-genome comparison of Mycobacterium tuberculosis clinical and laboratory strains. J. Bacteriol. 2002
Interaction	Regulatory Rv3498c	akankshajain.21	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3498c	akankshajain.21	IEP		Co-expression (Functional linkage) authors,R. Van der Geize,K. Yam,T. Heuser,MH. Wilbrink,H. Hara,MC. Anderton,E. Sim,L. Dijkhuizen,JE. Davies,WW. Mohn,LD. Eltis A gene cluster encoding cholesterol catabolism in a soil actinomycete provides insight into Mycobacterium tuberculosis survival in macrophages. Proc. Natl. Acad. Sci. U.S.A. 2007
Interaction	Regulatory Rv3499c	akankshajain.21	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3499c	akankshajain.21	IEP		Co-expression (Functional linkage) authors,R. Van der Geize,K. Yam,T. Heuser,MH. Wilbrink,H. Hara,MC. Anderton,E. Sim,L. Dijkhuizen,JE. Davies,WW. Mohn,LD. Eltis A gene cluster encoding cholesterol catabolism in a soil actinomycete provides insight into Mycobacterium tuberculosis survival in macrophages. Proc. Natl. Acad. Sci. U.S.A. 2007
Interaction	Regulatory Rv3496c	akankshajain.21	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3496c	akankshajain.21	IEP		Co-expression (Functional linkage) authors,R. Van der Geize,K. Yam,T. Heuser,MH. Wilbrink,H. Hara,MC. Anderton,E. Sim,L. Dijkhuizen,JE. Davies,WW. Mohn,LD. Eltis A gene cluster encoding cholesterol catabolism in a soil actinomycete provides insight into Mycobacterium tuberculosis survival in macrophages. Proc. Natl. Acad. Sci. U.S.A. 2007
Interaction	Regulatory Rv3497c	akankshajain.21	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3497c	akankshajain.21	IEP		Co-expression (Functional linkage) authors,R. Van der Geize,K. Yam,T. Heuser,MH. Wilbrink,H. Hara,MC. Anderton,E. Sim,L. Dijkhuizen,JE. Davies,WW. Mohn,LD. Eltis A gene cluster encoding cholesterol catabolism in a soil actinomycete provides insight into Mycobacterium tuberculosis survival in macrophages. Proc. Natl. Acad. Sci. U.S.A. 2007
Interaction	Regulatory Rv3494c	akankshajain.21	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3494c	akankshajain.21	IEP		Co-expression (Functional linkage) authors,R. Van der Geize,K. Yam,T. Heuser,MH. Wilbrink,H. Hara,MC. Anderton,E. Sim,L. Dijkhuizen,JE. Davies,WW. Mohn,LD. Eltis A gene cluster encoding cholesterol catabolism in a soil actinomycete provides insight into Mycobacterium tuberculosis survival in macrophages. Proc. Natl. Acad. Sci. U.S.A. 2007
Interaction	Regulatory Rv3495c	akankshajain.21	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3495c	akankshajain.21	IEP		Co-expression (Functional linkage) authors,R. Van der Geize,K. Yam,T. Heuser,MH. Wilbrink,H. Hara,MC. Anderton,E. Sim,L. Dijkhuizen,JE. Davies,WW. Mohn,LD. Eltis A gene cluster encoding cholesterol catabolism in a soil actinomycete provides insight into Mycobacterium tuberculosis survival in macrophages. Proc. Natl. Acad. Sci. U.S.A. 2007
Interaction	Regulatory Rv3492c	akankshajain.21	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3492c	akankshajain.21	IEP		Co-expression (Functional linkage) authors,R. Van der Geize,K. Yam,T. Heuser,MH. Wilbrink,H. Hara,MC. Anderton,E. Sim,L. Dijkhuizen,JE. Davies,WW. Mohn,LD. Eltis A gene cluster encoding cholesterol catabolism in a soil actinomycete provides insight into Mycobacterium tuberculosis survival in macrophages. Proc. Natl. Acad. Sci. U.S.A. 2007
Interaction	Regulatory Rv3493c	akankshajain.21	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv3493c	akankshajain.21	IEP		Co-expression (Functional linkage) authors,R. Van der Geize,K. Yam,T. Heuser,MH. Wilbrink,H. Hara,MC. Anderton,E. Sim,L. Dijkhuizen,JE. Davies,WW. Mohn,LD. Eltis A gene cluster encoding cholesterol catabolism in a soil actinomycete provides insight into Mycobacterium tuberculosis survival in macrophages. Proc. Natl. Acad. Sci. U.S.A. 2007
Interaction	Transcription Rv2800	sourish10	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv2668	shruti4rana	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulates Rv1894c	aparna.vchalam	IEP		Co-expression (Functional llnkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulates Rv1894c	aparna.vchalam	IEP		Co-expression (Functional llnkage) authors,LG. Klinkenberg,LA. Sutherland,WR. Bishai,PC. Karakousis Metronidazole lacks activity against Mycobacterium tuberculosis in an in vivo hypoxic granuloma model of latency. J. Infect. Dis. 2008
Interaction	Regulates Rv1894c	priyadarshinipriyanka2001	IEP		Co-expression (Functional llnkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulates Rv1894c	priyadarshinipriyanka2001	IEP		Co-expression (Functional llnkage) authors,LG. Klinkenberg,LA. Sutherland,WR. Bishai,PC. Karakousis Metronidazole lacks activity against Mycobacterium tuberculosis in an in vivo hypoxic granuloma model of latency. J. Infect. Dis. 2008
Interaction	Transcription Rv1628c	sourish10	NAS		Co-occurrence (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Transcription Rv0953c	sourish10	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Transcription Rv0954	sourish10	IEP		Co-expression (Functional linkage) SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Interaction	Regulatory Rv0940c	priyadarshinipriyanka2001	NAS		Band Shift SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv0138	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3568c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3569c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3572	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv0139	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3543c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3544c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3547	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3567c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3537	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3538	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3541c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3542c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3530c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3534c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3535c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3536c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3522	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3523	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3527	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3529c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3505	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3506	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3518c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3519	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3499c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3500c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3501c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3502c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3495c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3496c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3497c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3498c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv0926c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3492c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3493c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv3494c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv1132	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv1106c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv1059	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv0927c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv2799	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv2669	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv2668	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv1627c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv1426c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv1427c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv1428c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv2800	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007	yamir.moreno	ISO	17635188	M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
Interaction	Regulates Rv0162c	yamir.moreno	ISO		M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis. SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3574	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Interaction	RegulatedBy Rv3574	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Interaction	Regulates Rv3569c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3570c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3571	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3572	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3573c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3544c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3545c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3567c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3568c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3540c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3541c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3542c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3543c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Interaction	Regulates Rv3530c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3531c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3534c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3535c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3536c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3520c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3526	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3527	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3529c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3515c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3516	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3518c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3519	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Interaction	Regulates Rv3499c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3500c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3501c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3502c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3503c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3495c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3496c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3497c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3498c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv2800	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3492c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3493c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv3494c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Interaction	Regulates Rv0953c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv1627c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv1628c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv1894c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv2799	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv0223c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv0551c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv0687	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
Interaction	Regulates Rv0940c	yamir.moreno	TAS		Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support. G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008
Citation	The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008	yamir.moreno	TAS	18985025	Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Property

Value

Creator

Evidence

PMID

Comment

Interaction

Regulatory Rv3504

priyadarshinipriyanka2001

IEP

Co-expression (Functional linkage)
SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. Microbiology (Reading, England) 2010

Interaction

Regulatory Rv3505

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3506

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3516

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3518c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3515c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3498c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3499c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3500c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3501c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3502c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3503c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3492c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3493c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3494c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3495c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3496c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3497c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1106c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1059

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0953c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0940c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0927c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0926c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv2669

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv2668

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1894c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1628c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1627c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1132

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1428c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0223c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0551c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0687

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv2800

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv2799

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3573c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3574

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3574

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0139

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0138

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1426c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1427c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3567c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3568c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3569c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3570c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3571

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3572

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3542c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3543c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3544c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3545c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3546

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3547

priyadarshinipriyanka2001

IEP

Citation

Cholesterol utilisation in mycobacteria is controlled by two TetR-type transcriptional regulators; kstR and kstR2. SL. Kendall,P. Burgess,R. Balhana,M. Withers,A. Ten Bokum,JS. Lott,C. Gao,I. Uhia Castro,NG. Stoker Microbiology (Reading, England) 2010

priyadarshinipriyanka2001

IEP

20167624

Co-expression (Functional linkage)

Interaction

Regulatory Rv3535c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3536c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3537

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3538

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3540c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3541c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3504

priyadarshinipriyanka2001

IEP

Co-expression (Functional linkage)
SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007

Interaction

Regulatory Rv3505

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3506

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3516

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3518c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3515c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3498c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3499c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3500c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3501c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3502c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3503c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3492c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3493c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3494c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3495c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3496c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3497c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1106c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1059

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0953c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0940c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0927c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0926c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv2669

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv2668

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1894c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1628c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1627c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1132

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1428c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0223c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0551c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0687

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv2800

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv2799

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3573c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3574

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3574

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0139

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv0138

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1426c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv1427c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3567c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3568c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3569c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3570c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3571

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3572

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3542c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3543c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3544c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3545c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3546

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3547

priyadarshinipriyanka2001

IEP

Citation

A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. SL. Kendall, M. Withers et al. Mol. Microbiol. 2007

priyadarshinipriyanka2001

IEP

17635188

Co-expression (Functional linkage)

Interaction

Regulatory Rv3535c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3536c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3537

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3538

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3540c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3541c

priyadarshinipriyanka2001

IEP

Interaction

Regulatory Rv3542c

ahal4789

IEP

Interaction

Regulatory Rv3542c

ahal4789

IEP

Interaction

Regulatory Rv3542c

ahal4789

IEP

Co-expression (Functional linkage)
JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009

Interaction

Regulatory Rv3542c

sourish10

IEP

Co-expression (Functional linkage)
JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009

Interaction

Regulatory Rv3542c

sourish10

IEP

Interaction

Regulatory Rv3542c

sourish10

IEP

Interaction

Regulatory Rv3542c

sourish10

IEP

Co-expression (Functional linkage)
JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009

Interaction

Regulatory Rv3542c

ahal4789

IEP

Co-expression (Functional linkage)
JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009

Interaction

Regulatory Rv3541c

ahal4789

IEP

Co-expression (Functional linkage)
JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009

Interaction

Regulatory Rv3541c

ahal4789

IEP

Interaction

Regulatory Rv3541c

ahal4789

IEP

Interaction

Regulatory Rv3541c

ahal4789

IEP

Co-expression (Functional linkage)
JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009

Interaction

Regulatory Rv3540c

ahal4789

IEP

Co-expression (Functional linkage)
JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009

Interaction

Regulatory Rv3541c

sourish10

IEP

Co-expression (Functional linkage)
JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009

Interaction

Regulatory Rv3541c

sourish10

IEP

Interaction

Regulatory Rv3541c

sourish10

IEP

Interaction

Regulatory Rv3541c

sourish10

IEP

Co-expression (Functional linkage)
JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009

Interaction

Regulatory Rv3540c

sourish10

IEP

Interaction

Regulatory Rv3540c

sourish10

IEP

Interaction

Regulatory Rv3540c

sourish10

IEP

Co-expression (Functional linkage)
JC. Chang,MD. Miner,AK. Pandey,WP. Gill,NS. Harik,CM. Sassetti,DR. Sherman igr Genes and Mycobacterium tuberculosis cholesterol metabolism. J. Bacteriol. 2009

Interaction

Regulatory Rv3540c

ahal4789

IEP

Interaction

Regulatory Rv3540c

ahal4789

IEP

Interaction

Regulatory Rv3530c

salluamity1

IEP

Interaction

Regulatory Rv3531c

raj252000

IEP

Interaction

Regulatory Rv3531c

raj252000

IEP

Co-expression (Functional linkage)
P. Golby, J. Nunez et al. Characterization of two in vivo-expressed methyltransferases of the Mycobacterium tuberculosis complex: antigenicity and genetic regulation. Microbiology (Reading, Engl.) 2008

Interaction

Regulatory Rv3527

salluamity1

IEP

Interaction

Regulatory Rv3527

salluamity1

IEP

Co-expression (Functional linkage)
authors,K. Pethe,DL. Swenson,S. Alonso,J. Anderson,C. Wang,DG. Russell Isolation of Mycobacterium tuberculosis mutants defective in the arrest of phagosome maturation. Proc. Natl. Acad. Sci. U.S.A. 2004

Interaction

Regulatory Rv3529c

salluamity1

IEP

Interaction

Regulatory Rv3521

raj252000

IEP

Interaction

Regulatory Rv3522

salluamity1

IEP

Interaction

Regulatory Rv3522

salluamity1

IEP

Co-expression (Functional linkage)
NM. Nesbitt,X. Yang,P. Fontn,I. Kolesnikova,I. Smith,NS. Sampson,E. Dubnau A thiolase of Mycobacterium tuberculosis is required for virulence and production of androstenedione and androstadienedione from cholesterol. Infect. Immun. 2010

Interaction

Regulatory Rv3522

salluamity1

IEP

Co-expression (Functional linkage)
authors,R. Van der Geize,K. Yam,T. Heuser,MH. Wilbrink,H. Hara,MC. Anderton,E. Sim,L. Dijkhuizen,JE. Davies,WW. Mohn,LD. Eltis A gene cluster encoding cholesterol catabolism in a soil actinomycete provides insight into Mycobacterium tuberculosis survival in macrophages. Proc. Natl. Acad. Sci. U.S.A. 2007

Interaction

Regulatory Rv3519

salluamity1

IEP

Interaction

Regulatory Rv3519

salluamity1

IEP

Co-expression (Functional linkage)
authors,D. Alland,DW. Lacher,MH. Hazbn,AS. Motiwala,W. Qi,RD. Fleischmann,TS. Whittam Role of large sequence polymorphisms (LSPs) in generating genomic diversity among clinical isolates of Mycobacterium tuberculosis and the utility of LSPs in phylogenetic analysis. J. Clin. Microbiol. 2007

Interaction

Regulatory Rv3519

salluamity1

IEP

Co-expression (Functional linkage)
authors,RD. Fleischmann,D. Alland,JA. Eisen,L. Carpenter,O. White,J. Peterson,R. DeBoy,R. Dodson,M. Gwinn,D. Haft,E. Hickey,JF. Kolonay,WC. Nelson,LA. Umayam,M. Ermolaeva,SL. Salzberg,A. Delcher,T. Utterback,J. Weidman,H. Khouri,J. Gill,A. Mikula,W. Bishai,WR. Jacobs Jr,JC. Venter,CM. Fraser Whole-genome comparison of Mycobacterium tuberculosis clinical and laboratory strains. J. Bacteriol. 2002

Interaction

Regulatory Rv3518c

salluamity1

IEP

Interaction

Regulatory Rv3518c

salluamity1

IEP

Interaction

Regulatory Rv3518c

salluamity1

IEP

Interaction

Regulatory Rv3498c

akankshajain.21

IEP

Interaction

Regulatory Rv3498c

akankshajain.21

IEP

Interaction

Regulatory Rv3499c

akankshajain.21

IEP

Interaction

Regulatory Rv3499c

akankshajain.21

IEP

Interaction

Regulatory Rv3496c

akankshajain.21

IEP

Interaction

Regulatory Rv3496c

akankshajain.21

IEP

Interaction

Regulatory Rv3497c

akankshajain.21

IEP

Interaction

Regulatory Rv3497c

akankshajain.21

IEP

Interaction

Regulatory Rv3494c

akankshajain.21

IEP

Interaction

Regulatory Rv3494c

akankshajain.21

IEP

Interaction

Regulatory Rv3495c

akankshajain.21

IEP

Interaction

Regulatory Rv3495c

akankshajain.21

IEP

Interaction

Regulatory Rv3492c

akankshajain.21

IEP

Interaction

Regulatory Rv3492c

akankshajain.21

IEP

Interaction

Regulatory Rv3493c

akankshajain.21

IEP

Interaction

Regulatory Rv3493c

akankshajain.21

IEP

Interaction

Transcription Rv2800

sourish10

IEP

Interaction

Regulatory Rv2668

shruti4rana

IEP

Interaction

Regulates Rv1894c

aparna.vchalam

IEP

Co-expression (Functional llnkage)
SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007

Interaction

Regulates Rv1894c

aparna.vchalam

IEP

Co-expression (Functional llnkage)
authors,LG. Klinkenberg,LA. Sutherland,WR. Bishai,PC. Karakousis Metronidazole lacks activity against Mycobacterium tuberculosis in an in vivo hypoxic granuloma model of latency. J. Infect. Dis. 2008

Interaction

Regulates Rv1894c

priyadarshinipriyanka2001

IEP

Interaction

Regulates Rv1894c

priyadarshinipriyanka2001

IEP

Interaction

Transcription Rv1628c

sourish10

NAS

Co-occurrence (Functional linkage)
SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007

Interaction

Transcription Rv0953c

sourish10

IEP

Interaction

Transcription Rv0954

sourish10

IEP

Interaction

Regulatory Rv0940c

priyadarshinipriyanka2001

NAS

Band Shift
SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv0138

yamir.moreno

ISO

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.
SL. Kendall, M. Withers et al. A highly conserved transcriptional repressor controls a large regulon involved in lipid degradation in Mycobacterium smegmatis and Mycobacterium tuberculosis. Mol. Microbiol. 2007

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3568c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3569c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3572

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv0139

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3543c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3544c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3547

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3567c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3537

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3538

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3541c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3542c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3530c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3534c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3535c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3536c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3522

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3523

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3527

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3529c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3505

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3506

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3518c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3519

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3499c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3500c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3501c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3502c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3495c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3496c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3497c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3498c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv0926c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3492c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3493c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv3494c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv1132

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv1106c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv1059

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv0927c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv2799

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv2669

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv2668

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv1627c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv1426c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv1427c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv1428c

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv2800

yamir.moreno

ISO

Citation

yamir.moreno

ISO

17635188

M.smegmatis orthology based inference. Orthologous pair regulator-target found in M.smegmatis.

Interaction

Regulates Rv0162c

yamir.moreno

ISO

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3574

yamir.moreno

TAS

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.
G. Balzsi, AP. Heath et al. The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. Mol. Syst. Biol. 2008

Interaction

RegulatedBy Rv3574

yamir.moreno

TAS

Interaction

Regulates Rv3569c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3570c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3571

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3572

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3573c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3544c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3545c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3567c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3568c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3540c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3541c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3542c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3543c

yamir.moreno

TAS

Interaction

Regulates Rv3530c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3531c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3534c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3535c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3536c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3520c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3526

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3527

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3529c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3515c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3516

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3518c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3519

yamir.moreno

TAS

Interaction

Regulates Rv3499c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3500c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3501c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3502c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3503c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3495c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3496c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3497c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3498c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv2800

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3492c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3493c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv3494c

yamir.moreno

TAS

Interaction

Regulates Rv0953c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv1627c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv1628c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv1894c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv2799

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv0223c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv0551c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv0687

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Interaction

Regulates Rv0940c

yamir.moreno

TAS

Citation

The temporal response of the Mycobacterium tuberculosis gene regulatory network during growth arrest. G. Balzsi, AP. Heath et al. Mol. Syst. Biol. 2008

yamir.moreno

TAS

18985025

Literature previously reported link (from Balazsi et al. 2008). Traceable author statement to experimental support.

Comments