Outer membrane pore protein prediction in mycobacteria using genomic comparison.

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TítuloOuter membrane pore protein prediction in mycobacteria using genomic comparison.
Tipo de PublicaçãoJournal Article
AutoresMah N, Perez-Iratxeta C, Andrade-Navarro MA
Abbrev. JournalMicrobiology (Reading, Engl.)
RevistaMicrobiology (Reading, England)
Ano de Publicação2010
IssuePt 8
Idioma da Publicaçãoeng
Palavras-chave Algorithms, Bacterial Outer Membrane Proteins, Comparative Genomic Hybridization, DNA, Bacterial, Genome, Bacterial, Mycobacterium, Porins, Sequence Analysis, DNA, Species Specificity

Proteins responsible for outer membrane transport across the unique membrane structure of Mycobacterium spp. are attractive drug targets in the treatment of human diseases caused by the mycobacterial pathogens, Mycobacterium tuberculosis, M. bovis, M. leprae and M. ulcerans. In contrast with Escherichia coli, relatively few outer-membrane proteins (OMPs) have been identified in Mycobacterium spp., largely due to the difficulties in isolating mycobacterial membrane proteins and our incomplete understanding of secretion mechanisms and cell wall structure in these organisms. To further expand our knowledge of these elusive proteins in mycobacteria, we have improved upon our previous method of OMP prediction in mycobacteria by taking advantage of genomic data from seven mycobacteria species. Our improved algorithm suggests 4333 sequences as putative OMPs in seven species with varying degrees of confidence. The most virulent pathogenic mycobacterial species are slightly enriched in these selected sequences. We present examples of predicted OMPs involved in horizontal transfer and paralogy expansion. Analysis of local secondary structure content allowed identification of small domains predicted to perform as OMPs; some examples show their involvement in events of tandem duplication and domain rearrangements. We discuss the taxonomic distribution of these discovered families and architectures, often specific to mycobacteria or the wider taxonomic class of Actinobacteria. Our results suggest that OMP functionality in mycobacteria is richer than expected and provide a resource to guide future research of these understudied proteins.

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