Rv0173 (lprK)

Current annotations:
- TBCAP: (community-based annotations - see table at bottom of page)
- TBDB: virulence factor Mce family protein
- REFSEQ: MCE-family lipoprotein LprK
- PATRIC: MCE-family lipoprotein LprK (MCE-family lipoprotein Mce1e)
- TUBERCULIST: Possible Mce-family lipoprotein LprK (Mce-family lipoprotein Mce1E)
- NCBI: Possible Mce-family lipoprotein LprK (Mce-family lipoprotein Mce1E)
- updated information (H37Rv4):
  - gene name: lprK
  - function:
  - reference:
Type: Conditional
Start: 204065
End: 205237
Operon:

Trans-membrane region:
Role: II.C.1 - Lipoproteins(lppA-lpr0)
GO terms:
- GO:0044117 - growth of symbiont in host (Uniprot)
- GO:0005618 - cell wall (Uniprot)
- GO:0005576 - extracellular region (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:
Search for Homologs in PDB
Top 10 Homologs in PDB (as of Nov 2020): (none with >35% aa id)
Links to additional information on lprK:
- TBDB (updated)
- Phyre2 structure prediction, model: final.casp.pdb (from Mao et al, 2013)
- UniProt
- AlphaFold model
- Vulnerability = 0.696 (from Jeremy Rock's lab)
- KEGG - nucleotide and amino acid sequences of gene
- Mycobrowser
- PATRIC
- BioCyc
- Systems Biology

Amino Acid Sequence

MMSVLARMRVMRHRAWQGLVLLVLALLLSSCGWRGISNVAIPGGPGTGPGSYTIYVQMPDTLAINGNSRVMVADVWVGSIRAIKLKNWVATLTLSLKKDV
TLPKNATAKIGQTSLLGSQHVELAAPPDPSPVPLKDGDTIPLKRSSAYPTTEQTLASIATLLRGGGLVNLEGIQQEINAIVTGRADQIRAFLGKLDTFTD
ELNQQRDDITRAIDSTNRLLAYVGGRSEVLNRVLTDLPPLIKHFADKQELLINASDAVGRLSQSADQYLSAARGDLHQDLQALQCPLKELRRAAPYLVGA
LKLILTQPFDVDTVPQLVRGDYMNLSLTLDLTYSAIDNAFLTGTGFSGALRALEQSFGRDPETMIPDIRYTPNPNDAPGGPLVERGNRQC

(Nucleotide sequence available on KEGG)

Additional Information

Analysis of Positive Selection in Clinical Isolates new

Analysis of dN/dS (omega) in two collections of Mtb clinical isolates using GenomegaMap (Window model) (see description of methods)
- Moldova: 2,057 clinical isolates
- global set: 5,195 clinical isolates from 15 other countries
In the omega plots, the black line shows the mean estimate of omega (dN/dS) at each codon, and the blue lines are the bounds for the 95% credible interval (95%CI, from MCMC sampling).
A gene is under significant positive selection if the lower-bound of the 95%CI of omega (lower blue line) exceeds 1.0 at any codon.

	Moldova (2,057)	global set (5,195)
under significant positive selection?	NO	YES
omega peak height (95%CI lower bound)	2.37 (0.58)	2.4 (1.08)
codons under selection		184, 185, 186, 187, 188, 189, 190
omega plots
genetic variants*	link	link
statistics at each codon	link	link

* example format for variants: "D27 (GAC): D27H (CAC,11)" means "Asp27 (native codon GAC) mutated to His (codon CAC) in 11 isolates"

ESSENTIALITY

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

TnSeqCorr - genes with correlated TnSeq profiles across ~100 conditions

Rv0173/lprK, gene len: 1172 bp, num TA sites: 16

condition	dataset	call	medium	method	notes
in-vitro	DeJesus 2017 mBio	non-essential	7H9	HMM	fully saturated, 14 TnSeq libraries combined
in-vitro	Sassetti 2003 Mol Micro	non-essential	7H9	TRASH	essential if hybridization ratio<0.2
in-vivo (mice)	Sassetti 2003 PNAS	essential	BL6 mice	TRASH	essential if hybridization ratio<0.4, min over 4 timepoints (1-8 weeks)
in-vitro (glycerol)	Griffin 2011 PPath	non-essential	M9 minimal+glycerol	Gumbel	2 replicates; Padj<0.05
in-vitro (cholesterol)	Griffin 2011 PPath	non-essential	M9 minimal+cholesterol	Gumbel	3 replicates; Padj<0.05
differentially essential in cholesterol	Griffin 2011 PPath	NO (LFC=0.9)	cholesterol vs glycerol	resampling-SR	YES if Padj<0.05, else not significant; LFC<0 means less insertions/more essential in cholesterol
in-vitro	Smith 2022 eLife	non-essential	7H9	HMM	6 replicates (raw data in Subramaniam 2017, PMID 31752678)
in-vivo (mice)	Smith 2022 eLife	non-essential	BL6 mice	HMM	6 replicates (raw data in Subramaniam 2017, PMID 31752678)
differentially essential in mice	Smith 2022 eLife	NO (LFC=-0.525)	in-vivo vs in-vitro	ZINB	YES if Padj<0.05, else not significant; LFC<0 means less insertions/more essential in mice
in-vitro (minimal)	Minato 2019 mSys	non-essential	minimal medium	HMM
in-vitro (YM rich medium)	Minato 2019 mSys	non-essential	YM rich medium	HMM	7H9 supplemented with ~20 metabolites (amino acids, cofactors)
differentially essential in YM rich medium	Minato 2019 mSys	NO (LFC=-0.2)	YM rich vs minimal medium	resampling

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

Binds To:
- No bindings to other targets were found.
Bound By:
- Rv0023 (-)
- Rv0081 (-)

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

Binds To:
- No bindings to other targets were found.
Bound By:
- Rv0023 (-) (Direct binding)
- Rv1033c (trcR) (Direct binding)
- Rv1719 (-) (Direct binding)
- Rv1816 (-) (Direct binding)
- Rv0022c (whiB5) (Upstream of operon)
- Rv0081 (-) (Upstream of operon)
- Rv0117 (oxyS) (Upstream of operon)
- Rv0158 (-) (Upstream of operon)
- Rv0678 (-) (Upstream of operon)
- Rv0757 (phoP) (Upstream of operon)
- Rv1049 (-) (Upstream of operon)
- Rv1189 (sigI) (Upstream of operon)
- Rv1985c (-) (Upstream of operon)
- Rv2009 (vapB15) (Upstream of operon)
- Rv2069 (sigC) (Upstream of operon)
- Rv2250c (-) (Upstream of operon)
- Rv2374c (hrcA) (Upstream of operon)
- Rv2642 (-) (Upstream of operon)
- Rv3124 (moaR1) (Upstream of operon)
- Rv3133c (devR) (Upstream of operon)
- Rv3167c (-) (Upstream of operon)
- Rv3416 (whiB3) (Upstream of operon)
- Rv3597c (lsr2) (Upstream of operon)
- Rv3736 (-) (Upstream of operon)
- Rv3765c (tcrX) (Upstream of operon)

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

Upregulates:
- Does not upregulate other genes.
Upregulated by:
- Not upregulated by other genes.
Downregulates:
- Does not downregulate other genes.
Downregulated by:
- Rv0023 (-)
- Rv0081 (-)

Property	Value	Creator	Evidence	PMID	Comment
Interaction	Regulatory Rv0174	yashabhasin	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	Regulatory Rv0169	yashabhasin	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	Regulatory Rv0170	yashabhasin	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	Regulatory Rv0167	yashabhasin	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	Regulatory Rv0172	yashabhasin	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	Regulatory Rv0171	yashabhasin	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	Regulatory Rv0174	yashabhasin	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Citation	Regulation of the Mycobacterium tuberculosis mce1 operon. N. Casali, AM. White et al. J. Bacteriol. 2006	shahanup86	IEP	16385033	Co-expression (Functional linkage)
Interaction	RegulatedBy Rv0165c	shahanup86	IEP		Co-expression (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Citation	Regulation of the Mycobacterium tuberculosis mce1 operon. N. Casali, AM. White et al. J. Bacteriol. 2006	yashabhasin	TAS	16385033	Operon (Functional linkage)
Interaction	Regulatory Rv0166	yashabhasin	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	Regulatory Rv0168	yashabhasin	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	Regulatory Rv0172	shahanup86	TAS		Operon (Functional linkage) M. Harboe, A. Christensen et al. Demonstration of expression of six proteins of the mammalian cell entry (mce1) operon of Mycobacterium tuberculosis by anti-peptide antibodies, enzyme-linked immunosorbent assay and reverse transcription-polymerase chain reaction. Scand. J. Immunol. 1999
Interaction	Regulatory Rv0172	shahanup86	TAS		Operon (Functional linkage) M. Harboe, A. Christensen et al. Cross-reaction between mammalian cell entry (Mce) proteins of Mycobacterium tuberculosis. Scand. J. Immunol. 2002
Interaction	Regulatory Rv0172	shahanup86	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	Regulatory Rv0171	yashabhasin	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	Regulatory Rv0170	yashabhasin	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	Regulatory Rv0168	yashabhasin	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	Regulatory Rv0167	yashabhasin	TAS		Operon (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	Regulatory Rv0165c	yashabhasin	IEP		Co-expression (Functional linkage) N. Casali, AM. White et al. Regulation of the Mycobacterium tuberculosis mce1 operon. J. Bacteriol. 2006
Interaction	RegulatedBy Rv0348	yamir.moreno	IEP		Microarrays. mRNA levels of regulated element measured and compared between wild-type and trans-element mutation (knockout, over expression etc.) performed by using microarray (or macroarray) experiments.. B. Abomoelak, EA. Hoye et al. mosR, a novel transcriptional regulator of hypoxia and virulence in Mycobacterium tuberculosis. J. Bacteriol. 2009
Interaction	RegulatedBy Rv3676	yamir.moreno	ISO		E.coli orthology based inference. Orthologous pair regulator-target found in E.coli. 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 Rv0494	yamir.moreno	ISO		E.coli orthology based inference. Orthologous pair regulator-target found in E.coli. 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 Rv3286c	yamir.moreno	IEP		Microarrays. mRNA levels of regulated element measured and compared between wild-type and trans-element mutation (knockout, over expression etc.) performed by using microarray (or macroarray) experiments.. EP. Williams, JH. Lee et al. Mycobacterium tuberculosis SigF regulates genes encoding cell wall-associated proteins and directly regulates the transcriptional regulatory gene phoY1. J. Bacteriol. 2007
Interaction	RegulatedBy Rv3676	yamir.moreno	ISO		E.coli orthology based inference. Orthologous pair regulator-target found in E.coli. authors,M. Madan Babu,SA. Teichmann,L. Aravind Evolutionary dynamics of prokaryotic transcriptional regulatory networks. J. Mol. Biol. 2006
Interaction	RegulatedBy Rv0494	yamir.moreno	ISO		E.coli orthology based inference. Orthologous pair regulator-target found in E.coli. authors,M. Madan Babu,SA. Teichmann,L. Aravind Evolutionary dynamics of prokaryotic transcriptional regulatory networks. J. Mol. Biol. 2006

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