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virulence, detoxification, adaptation
information pathways
cell wall and cell processes
stable RNAs
insertion seqs and phages
PE/PPE
intermediary metabolism and respiration
unknown
regulatory proteins
conserved hypotheticals
lipid metabolism
pseudogenes
General annotation
TypeCDS
FunctionFunction unknown
ProductPPE family protein PPE34
CommentsRv1917c, (MTV050.01c-MTCY180.01), len: 1459 aa. PPE34, Member of the Mycobacterium tuberculosis PPE family of glycine-rich proteins, MPTR subfamily (see citation below). Similar to MTCY28.16, MTCY13E10.17, MTCY63.10, MTV004.05, MTCY98.24, MTCY6G11.05, etc. C-terminus is identical to Q50471. Unknown Mycobacterium tuberculosis protein (693 aa), FASTA results: opt: 2635, E(): 0, (99.7% identity in 391 aa overlap). Start changed since original submission (+23 aa). Thougth to be surface exposed, cell-wall associated.
Functional categoryPe/ppe
ProteomicsIdentified by mass spectrometry in M. tuberculosis H37Rv-infected guinea pig lungs at 30 and 90 days (See Kruh et al., 2010).
MutantNon-essential gene for in vitro growth of H37Rv in a MtbYM rich medium, by Himar1 transposon mutagenesis (see Minato et al. 2019). Non-essential gene for in vitro growth of H37Rv, by analysis of saturated Himar1 transposon libraries (see DeJesus et al. 2017). Non essential gene by Himar1 transposon mutagenesis in H37Rv and CDC1551 strains (see Sassetti et al., 2003 and Lamichhane et al., 2003). Essential gene for in vitro growth of H37Rv, by Himar1 transposon mutagenesis (See Griffin et al., 2011).
Check for mutants available at TARGET website
Coordinates
TypeStartEndOrientation
CDS21629322167311-
Genomic sequence
Feature type Upstream flanking region (bp) Downstream flanking region (bp) Update
       
Protein sequence
>Mycobacterium tuberculosis H37Rv|Rv1917c|PPE34
MNFSTLPPEINSALIFGGAGSEPMSAAAVAWDQLAMELASAAASFNSVTSGLVGESWLGPSSAAMAAAVAPYLGWLAAAAAQAQRSATQAAALVAEFEAVRAAMVQPALVAANRSDLVSLVFSNFFGQNAPAIAAIEAAYEQMWAIDVSVMSAYHAGASAVASALTPFTAPPQNLTDLPAQLAAAPAAVVTAAITSSKGVLANLSLGLANSGFGQMGAANLGILNLGSLNPGGNNFGLGNVGSNNVGLGNTGNGNIGFGNTGNGNIGFGLTGDNQQGFGGWNSGTGNIGLFNSGTGNIGIGNTGTGNFGIGNSGTSYNTGIGNTGQANTGFFNAGIANTGIGNTGNYNTGSFNLGSFNTGDFNTGSSNTGFFNPGNLNTGVGNTGNVNTGGFNSGNYSNGFFWRGDYQGLIGFSGTLTIPAAGLDLNGLGSVGPITIPSITIPEIGLGINSSGALVGPINVPPITVPAIGLGINSTGALVGPINIPPITLNSIGLELSAFQVINVGSISIPASPLAIGLFGVNPTVGSIGPGSISIQLGTPEIPAIPPFFPGFPPDYVTVSGQIGPITFLSGGYSLPAIPLGIDVGGGLGPFTVFPDGYSLPAIPLGIDVGGGLGPFTVFPDGYSLPAIPLGIDVGGGLGPFTVFPDGYSLPAIPLGIDVGGAIGPLTTPPITIPSIPLGIDVSGSLGPINIPIEIAGTPGFGNSTTTPSSGFFNSGTGGTSGFGNVGSGGSGFWNIAGNLGNSGFLNVGPLTSGILNFGNTVSGLYNTSTLGLATSAFHSGVGNTDSQLAGFMRNAAGGTLFNFGFANDGTLNLGNANLGDYNVGSGNVGSYNFGSGNIGNGSFGFGNIGSNNFGFGNVGSNNLGFANTGPGLTEALHNIGFGNIGGNNYGFANIGNGNIGFGNTGTGNIGIGLTGDNQVGFGALNSGSGNIGFFNSGNGNIGFFNSGNGNVGIGNSGNYNTGLGNVGNANTGLFNTGNVNTGIGNAGSYNTGSYNAGDTNTGDLNPGNANTGYLNLGDLNTGWGNIGDLNTGALISGSYSNGILWRGDYQGLIGYSDTLSIPAIPLSVEVNGGIGPIVVPDITIPGIPLSLNALGGVGPIVVPDITIPGIPLSLNALGGVGPIVVPDITIPGIPLSLNALGGVGPIVVPDITIPGIPLSLNALGGVGPIVVPDITIPGIPLSLNALGGVGPITVPGVPISRIPLTINIRIPVNITLNELPFNVAGIFTGYIGPIPLSTFVLGVTLAGGTLESGIQGFSVNPFGLNIPLSGATNAVTIPGFAINPFGLNVPLSGGTSPVTIPGFAINPFGLNVPLSGGTSPVTIPGFTIPGSPLNLTANGGLGPINIPINITSAPGFGNSTTTPSSGFFNSGDGSASGFGNVGPGISGLWNQVPNALQGGVSGIYNVGQLASGVANLGNTVSGFNNTSTVGHLTAAFNSGVNNIGQMLLGFFSPGAGP