Frontiers in Microbiology (May 2017)

Comparative Proteomic Analysis of Mycobacterium tuberculosis Lineage 7 and Lineage 4 Strains Reveals Differentially Abundant Proteins Linked to Slow Growth and Virulence

  • Solomon A. Yimer,
  • Solomon A. Yimer,
  • Alemayehu G. Birhanu,
  • Alemayehu G. Birhanu,
  • Shewit Kalayou,
  • Tahira Riaz,
  • Ephrem D. Zegeye,
  • Getachew T. Beyene,
  • Carol Holm-Hansen,
  • Gunnstein Norheim,
  • Markos Abebe,
  • Abraham Aseffa,
  • Tone Tønjum,
  • Tone Tønjum

DOI
https://doi.org/10.3389/fmicb.2017.00795
Journal volume & issue
Vol. 8

Abstract

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In order to decipher the nature of the slowly growing Mycobacterium tuberculosis (M.tuberculosis) lineage 7, the differentially abundant proteins in strains of M. tuberculosis lineage 7 and lineage 4 were defined. Comparative proteomic analysis by mass spectrometry was employed to identify, quantitate and compare the protein profiles of strains from the two M. tuberculosis lineages. Label-free peptide quantification of whole cells from M. tuberculosis lineage 7 and 4 yielded the identification of 2825 and 2541 proteins, respectively. A combined total of 2867 protein groups covering 71% of the predicted M. tuberculosis proteome were identified. The abundance of 125 proteins in M. tuberculosis lineage 7 and 4 strains was significantly altered. Notably, the analysis showed that a number of M. tuberculosis proteins involved in growth and virulence were less abundant in lineage 7 strains compared to lineage 4. Five ABC transporter proteins, three phosphate binding proteins essential for inorganic phosphate uptake, and six components of the type 7 secretion system ESX-3 involved in iron acquisition were less abundant in M. tuberculosis lineage 7. This proteogenomic analysis provided an insight into the lineage 7-specific protein profile which may provide clues to understanding the differential properties of lineage 7 strains in terms of slow growth, survival fitness, and pathogenesis.

Keywords