Rv3111 (moaC1)

Current annotations:
- TBCAP: (community-based annotations - see table at bottom of page)
- TBDB: molybdenum cofactor biosynthesis protein C 1
- REFSEQ: molybdenum cofactor biosynthesis protein C
- PATRIC: Molybdenum cofactor biosynthesis protein MoaC
- TUBERCULIST: Probable molybdenum cofactor biosynthesis protein C MoaC1
- NCBI: Probable molybdenum cofactor biosynthesis protein C MoaC1
- updated information (H37Rv4):
  - gene name: moaC1
  - function:
  - reference:
Type: Not Target
Start: 3479171
End: 3479683
Operon:

Trans-membrane region:
Role: I.G.4 - Molybdopterin
GO terms:
- GO:0061799 - cyclic pyranopterin monophosphate synthase activity (Uniprot)
- GO:0052170 - negative regulation by symbiont of host innate immune response (Uniprot)
- GO:0040007 - growth (Uniprot)
- GO:0016829 - lyase activity (Uniprot)
- GO:0006777 - Mo-molybdopterin cofactor biosynthetic process (Uniprot)
- GO:0005576 - extracellular region (Uniprot)
Reaction(s) (based on iSM810 metabolic model):
- GTP[c] -> PPI[c] + PRECURSOR[Z][c]
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):

PDB	aa ident	species	PDB title
4PYD	58%	Escherichia coli	MoaC in complex with cPMP crystallized in space group P212121
1EKR	58%	Escherichia coli	MOAC PROTEIN FROM E. COLI
4PYA	57%	Escherichia coli K-12	MoaC K51A in complex with 3',8-cH2GTP
1EKS	57%	Escherichia coli	ASP128ALA VARIANT OF MOAC PROTEIN FROM E. COLI
4FDF	54%	Mycobacterium tuberculosis	Structural insights into putative molybdenum cofactor biosynthesis protein C (MoaC2) from Mycobacterium tuberculosis H37Rv
3JQM	50%	Thermus thermophilus	Binding of 5'-GTP to molybdenum cofactor biosynthesis protein MoaC from Thermus theromophilus HB8
3JQK	50%	Thermus thermophilus	Crystal structure of the molybdenum cofactor biosynthesis protein C (TTHA1789) from Thermus Theromophilus HB8 (H32 FORM)
3JQJ	50%	Thermus thermophilus	Crystal structure of the molybdenum cofactor biosynthesis protein C (TTHA1789) from Thermus Theromophilus HB8
2IIH	50%	Thermus thermophilus	Crystal structure of the molybdenum cofactor biosynthesis protein C (TTHA1789) from thermus theromophilus HB8 (H32 form)
2IDE	50%	Thermus thermophilus	Crystal Structure of the molybdenum cofactor biosynthesis protein C (TTHA1789) from Thermus Theromophilus HB8

Links to additional information on moaC1:
- TBDB (updated)
- Phyre2 structure prediction, model: final.casp.pdb (from Mao et al, 2013)
- UniProt
- AlphaFold model
- Vulnerability = 1.666 (from Jeremy Rock's lab)
- KEGG - nucleotide and amino acid sequences of gene
- Mycobrowser
- PATRIC
- BioCyc
- Systems Biology

Amino Acid Sequence

MIDHALALTHIDERGAARMVDVSEKPVTLRVAKASGLVIMKPSTLRMISDGAAAKGDVMAAARIAGIAAAKRTGDLIPLCHPLGLDAVSVTITPCEPDRV
KILATTTTLGRTGVEMEALTAVSVAALTIYDMCKAVDRAMEISQIVLQEKSGGRSGVYRRSASDLACQSR

(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: 0.000050; 7 non-insertions in a row out of 13 sites
Non-Essential	Lignoceric Acid	H37RvMA	Gumbel	Subhalaxmi Nambi	Probability of Essentiality: 0.000000; 3 non-insertions in a row out of 13 sites
Non-Essential	Phosphatidylcholine	H37RvMA	Gumbel	Subhalaxmi Nambi	Probability of Essentiality: 0.000000; 3 non-insertions in a row out of 13 sites
Uncertain	minimal media + 0.1% glycerol	H37RvMA	Gumbel	Griffin et al. (2011)	Probability of Essentiality: 0.871850; 8 non-insertions in a row out of 14 sites
Non-Essential	minimal media + 0.01% cholesterol	H37RvMA	Gumbel	Griffin et al. (2011)	Probability of Essentiality: 0.000000; 4 non-insertions in a row out of 14 sites
Essential	7H10-glycerol	H37RvMA	TraSH	Sassetti et al. (2003a)
Essential	C57BL/6J mice (8 weeks)	H37RvMA	TraSH	Sassetti et al. (2003b)	Hybridization Ratio: 0.19
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

Binds To:
- No bindings to other targets were found.
Bound By:

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

Binds To:
- No bindings to other targets were found.
Bound By:
- Rv0767c (-) (Direct binding)
- Rv1353c (-) (Direct binding)
- Rv2887 (-) (Direct binding)
- Rv3066 (-) (Direct binding)
- Rv3488 (-) (Direct binding)
- Rv3574 (kstR) (Direct binding)
- Rv0047c (-) (Upstream of operon)

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

Upregulates:
- Does not upregulate other genes.
Upregulated by:
Downregulates:
- Does not downregulate other genes.
Downregulated by:
- Not downregulated by other genes.

Property	Value	Creator	Evidence	PMID	Comment
Interaction	PhysicalInteraction Rv3324A	priti.priety	NAS		Co-occurrence(Functional-linkage) authors,MS. Cortese,AB. Caplan,RL. Crawford Structural, functional, and evolutionary analysis of moeZ, a gene encoding an enzyme required for the synthesis of the Pseudomonas metabolite, pyridine-2,6-bis(thiocarboxylic acid). BMC Evol. Biol. 2002
Interaction	PhysicalInteraction Rv3324A	priti.priety	NAS		Co-occurrence(Functional-linkage) authors,PR. Marri,JP. Bannantine,GB. Golding Comparative genomics of metabolic pathways in Mycobacterium species: gene duplication, gene decay and lateral gene transfer. FEMS Microbiol. Rev. 2006
Citation	Characterisation of the transcriptional regulator Rv3124 of Mycobacterium tuberculosis identifies it as a positive regulator of molybdopterin biosynthesis and defines the functional consequences of a nonsynonymous SNP in the Mycobacterium bovis BCG orthologue. P. Mendoza Lopez,P. Golby,E. Wooff,JN. Garcia,MC. Garcia Pelayo,K. Conlon,A. Gema Camacho,RG. Hewinson,J. Polaina,A. Surez Garca,SV. Gordon Microbiology (Reading, England) 2010	mwilliams		20378651	Rv3124 is a positive transcriptional regulator of moaA1-moaB1-moaC1-moaD1
Symbol	moaC1	mwilliams			Acquired by horizontal gene transfer authors,TP. Stinear,T. Seemann,PF. Harrison,GA. Jenkin,JK. Davies,PD. Johnson,Z. Abdellah,C. Arrowsmith,T. Chillingworth,C. Churcher,K. Clarke,A. Cronin,P. Davis,I. Goodhead,N. Holroyd,K. Jagels,A. Lord,S. Moule,K. Mungall,H. Norbertczak,MA. Quail,E. Rabbinowitsch,D. Walker,B. White,S. Whitehead,PL. Small,R. Brosch,L. Ramakrishnan,MA. Fischbach,J. Parkhill,ST. Cole Insights from the complete genome sequence of Mycobacterium marinum on the evolution of Mycobacterium tuberculosis. Genome Res. 2008
Citation	Insights from the complete genome sequence of Mycobacterium marinum on the evolution of Mycobacterium tuberculosis. authors,TP. Stinear,T. Seemann,PF. Harrison,GA. Jenkin,JK. Davies,PD. Johnson,Z. Abdellah,C. Arrowsmith,T. Chillingworth,C. Churcher,K. Clarke,A. Cronin,P. Davis,I. Goodhead,N. Holroyd,K. Jagels,A. Lord,S. Moule,K. Mungall,H. Norbertczak,MA. Quail,E. Rabbinowitsch,D. Walker,B. White,S. Whitehead,PL. Small,R. Brosch,L. Ramakrishnan,MA. Fischbach,J. Parkhill,ST. Cole Genome Res. 2008	mwilliams		18403782	Acquired by horizontal gene transfer
Citation	Signature-tagged transposon mutagenesis identifies novel Mycobacterium tuberculosis genes involved in the parasitism of human macrophages. V. Rosas-Magallanes, G. Stadthagen-Gomez et al. Infect. Immun. 2007	mwilliams		17030567	Transposon mutant has reduced ability to parasitize macrophages
Citation	Genetic Requirements for the Survival of Tubercle Bacilli in Primates. NK. Dutta,S. Mehra,PJ. Didier,CJ. Roy,LA. Doyle,X. Alvarez,M. Ratterree,NA. Be,G. Lamichhane,SK. Jain,MR. Lacey,AA. Lackner,D. Kaushal The Journal of infectious diseases 2010	mwilliams		20394526	Transposon mutant is attenuated in primate lungs
Citation	High content phenotypic cell-based visual screen identifies Mycobacterium tuberculosis acyltrehalose-containing glycolipids involved in phagosome remodeling. authors,P. Brodin,Y. Poquet,F. Levillain,I. Peguillet,G. Larrouy-Maumus,M. Gilleron,F. Ewann,T. Christophe,D. Fenistein,J. Jang,MS. Jang,SJ. Park,J. Rauzier,JP. Carralot,R. Shrimpton,A. Genovesio,JA. Gonzalo-Asensio,G. Puzo,C. Martin,R. Brosch,GR. Stewart,B. Gicquel,O. Neyrolles PLoS Pathog. 2010	mwilliams		20844580	Transposon mutant in M. tuberculosis W-Beijing strain, GC1237, was defective in arresting phagosome maturation
Citation	Functional analysis of molybdopterin biosynthesis in mycobacteria identifies a fused molybdopterin synthase in Mycobacterium tuberculosis. authors,MJ. Williams,BD. Kana,V. Mizrahi J. Bacteriol. 2011	mwilliams		20971904	Deletion of moaA1-moaB1-moaC1-moaD1 in M. tuberculosis results in reduced MoCo biosynthesis
Citation	In silico reconstruction of the metabolic pathways of Lactobacillus plantarum: comparing predictions of nutrient requirements with those from growth experiments. authors,B. Teusink,FH. van Enckevort,C. Francke,A. Wiersma,A. Wegkamp,EJ. Smid,RJ. Siezen Appl. Environ. Microbiol. 2005	jjmcfadden		16269766	Inferred from direct assay
Other	EC:	jjmcfadden			Inferred from direct assay authors,B. Teusink,FH. van Enckevort,C. Francke,A. Wiersma,A. Wegkamp,EJ. Smid,RJ. Siezen In silico reconstruction of the metabolic pathways of Lactobacillus plantarum: comparing predictions of nutrient requirements with those from growth experiments. Appl. Environ. Microbiol. 2005

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