Integrated proteogenomics database

Bacteria iconC. butyricum DSM10702_tryptic

The extended simplified human intestinal microbiota (SIHUMIx) consists of eight bacterial members (Anaerostipes caccae (DSMZ 14662); Bacteroides thetaiotaomicron (DSMZ 2079); Bifidobacterium longum (NCC 2705); Blautia producta (DSMZ 2950); Clostridium butyricum (DSMZ 10702); Clostridium ramosum (DSMZ 1402); Escherichia coli K-12 (MG1655); Lactobacillus plantarum (DSMZ 20174)) of the human intestine and thus represents a model community to analyze such microbial interactions [1].

A tryptic iPtgxDB of Clostridium butyricum (DSM 10702) was created by hierarchically integrating protein coding sequences from the following annotation resources:

Hierarchy Resource Link
1 NCBI RefSeq CP040626.1 / CP040627.1 / CP040628.1 / CP040629.1 from 23-MAY-2019 (NCBI Prokaryotic Genome Annotation Pipeline (PGAP v.4.7)
2 Prodigal [2] ab initio gene predictions from Prodigal (v2.6)
3 ChemGenome [3] ab initio gene predictions from ChemGenome (v2.0, http://www.scfbio-iitd.res.in/chemgenome/chemgenomenew.jsp; with parameters: method, Swissprot space; length threshold, 70 nt; initiation codons, ATG, CTG, TTG, GTG)
4 in silico ORFs in silico ORF annotations were generated as described by Omasits and Varadarajan et al., 2017 (v2.0, Only ORFs above a selectable length threshold (here 18 aa) were considered.)

The iPtgxDB was created using the hierarchy RefSeq > Prodigal > ChemGenome > in silico. Files were parsed to extract the identifier, coordinates and sequences of bona fide protein-coding sequences (CDS) and pseudogene entries.

References

  1. Becker, N., Kunath, J., Loh, G. & Blaut, M. Human intestinal microbiota: Characterization of a simplified and stable gnotobiotic rat model. Gut Microbes 2, 25-33, doi:10.4161/gmic.2.1.14651 (2011).
  2. Hyatt, D., Chen, G.L., Locascio, P.F., Land, M.L., Larimer, F.W., and Hauser, L.J. 2010. Prodigal: prokaryotic gene recognition and translation initiation site identification. BMC Bioinformatics 11: 119.
  3. Singhal, P., Jayaram, B., Dixit, S.B., and Beveridge, D.L. 2008. Prokaryotic gene finding based on physicochemical characteristics of codons calculated from molecular dynamics simulations. Biophys J 94: 4173-4183.
  4. Omasits, U., Varadarajan, A. R., Schmid, M., Goetze, S., Melidis, D., Bourqui, M., Nikolayeva, O., Quebatte, M., Patrignani, A., Dehio, C., Frey, J. E., Robinson, M. D., Wollscheid, B., and Ahrens., C. H. An integrative strategy to identify the entire protein coding potential of prokaryotic genomes by proteogenomics. bioRxiv, Cold Spring Harbor Labs Journals, 2017.
iPtgxDB Release Info
Versions
Version
1
Versions
Date
10.08.2020

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Compression icon

TAR.GZ

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Size
4.7 MB
Data icon
MD5
bd15204f00fa26d631c73536477a79d3
Data icon
SHA1
874d887141a49132dc2dab0bffbb457d364f3d08
Compression icon

ZIP

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Size
4.8 MB
Data icon
MD5
0a93b72e8e380dd4a291039834895dd9
Data icon
SHA1
62921ae647b4d626888cde2a6b97028b168b891f