Rv3417c - 60 kda chaperonin 1 groEL1
Protein Domains

Gene Information
LocusRv3417c
SymbolgroEL
Gene Name60 kda chaperonin 1 groEL1
Location3835272 - 3836891 (-)
SpeciesMycobacterium tuberculosis H37Rv complete genome.
LengthGene:1620 bp
Protein:540 aa
External LinksTuberculist
Target Gene Information
String Protein-Protein Interactions
STITCH Chemical-Protein Interactions
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Orthologs
Orthogroup Number33448
Related GenesAcel_0363 CE0602 cg0693 DIP0576 jk1728 MAP4265 MAV_4365 Mkms_1171 ML0381 Mmcs_1154 MSMEG_1583 MT3526 MUL_0886 Mvan_1495 nfa8870 PPA1772 SAV4992 SCO4762
Transcriptional Regulation
Operons View gene in operon browser
Regulatory Network
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Expression Correlation Genes with Correlated Expression
Scatterplot of Gene Expression

Sequence
Proteins
Genomic Sequence
Community Annotations Pending Curatorial Review
FieldValueStatusCreatorDate
InteractionPhysicalInteraction Rv3418cactivechirupolo2012-10-05
Structural analysis
V. Aravindhan, AJ. Christy et al. Mycobacterium tuberculosis groE promoter controls the expression of the bicistronic groESL1 operon and shows differential regulation under stress conditions. FEMS Microbiol. Lett. 2009
InteractionPhysicalInteraction Rv3418cactivechirupolo2012-10-05
Structural analysis
MM. Roberts, AR. Coker et al. Mycobacterium tuberculosis chaperonin 10 heptamers self-associate through their biologically active loops. J. Bacteriol. 2003
InteractionRegulatedBy Rv3678cactiveyamir.moreno2012-10-05
One hybrid reporter system. Physical binding of the regulator to the regulated promoter proved by using electrophoretic mobility shift assay. .
M. Guo, H. Feng et al. Dissecting transcription regulatory pathways through a new bacterial one-hybrid reporter system. Genome Res. 2009
InteractionRegulatedBy Rv3416activeyamir.moreno2012-10-05
One hybrid reporter system. Physical binding of the regulator to the regulated promoter proved by using electrophoretic mobility shift assay. .
M. Guo, H. Feng et al. Dissecting transcription regulatory pathways through a new bacterial one-hybrid reporter system. Genome Res. 2009
InteractionRegulatedBy Rv3414cactiveyamir.moreno2012-10-05
One hybrid reporter system. Physical binding of the regulator to the regulated promoter proved by using electrophoretic mobility shift assay. .
M. Guo, H. Feng et al. Dissecting transcription regulatory pathways through a new bacterial one-hybrid reporter system. Genome Res. 2009
InteractionRegulatedBy Rv2745cactiveyamir.moreno2012-10-05
One hybrid reporter system. Physical binding of the regulator to the regulated promoter proved by using electrophoretic mobility shift assay. .
M. Guo, H. Feng et al. Dissecting transcription regulatory pathways through a new bacterial one-hybrid reporter system. Genome Res. 2009
InteractionRegulatedBy Rv2021cactiveyamir.moreno2012-10-05
One hybrid reporter system. Physical binding of the regulator to the regulated promoter proved by using electrophoretic mobility shift assay. .
M. Guo, H. Feng et al. Dissecting transcription regulatory pathways through a new bacterial one-hybrid reporter system. Genome Res. 2009
InteractionRegulatedBy Rv0981activeyamir.moreno2012-10-05
One hybrid reporter system. Physical binding of the regulator to the regulated promoter proved by using electrophoretic mobility shift assay. .
M. Guo, H. Feng et al. Dissecting transcription regulatory pathways through a new bacterial one-hybrid reporter system. Genome Res. 2009
InteractionRegulatedBy Rv0491activeyamir.moreno2012-10-05
One hybrid reporter system. Physical binding of the regulator to the regulated promoter proved by using electrophoretic mobility shift assay. .
M. Guo, H. Feng et al. Dissecting transcription regulatory pathways through a new bacterial one-hybrid reporter system. Genome Res. 2009