BackgroundMembrane- and membrane-associated proteins are important for the pathogenicity of bacteria. We have analysed the content of these proteins in virulent Mycobacterium tuberculosis H37Rv using Triton X-114 detergent-phase separation for extraction of lipophilic proteins, followed by their identification with high resolution mass spectrometry.ResultsIn total, 1417 different proteins were identified. In silico analysis of the identified proteins revealed that 248 proteins had at least one predicted trans-membrane region. Also, 64 of the identified proteins were predicted lipoproteins, and 54 proteins were predicted as outer membrane proteins. Three-hundred-and-ninety-five of the observed proteins, including 91 integral membrane proteins were described for the first time. Comparison of abundance levels of the identified proteins was performed using the exponentially modified protein abundance index (emPAI) which takes into account the number of the observable peptides to the number of experimentally observed peptide ions for a given protein. The outcome showed that among the membrane-and membrane-associated proteins several proteins are present with high relative abundance. Further, a close examination of the lipoprotein LpqG (Rv3623) which is only detected in the membrane fractions of M. tuberculosis but not in M. bovis, revealed that the homologous gene in M. bovis lack the signal peptide and lipobox motif, suggesting impaired export to the membrane.ConclusionsAltogether, we have identified a substantial proportion of membrane- and membrane-associated proteins of M. tuberculosis H37Rv, compared the relative abundance of the identified proteins and also revealed subtle differences between the different members of the M. tuberculosis complex.
BackgroundThe potential causes for variation in virulence between distinct M. tuberculosis strains are still not fully known. However, differences in protein expression are probably an important factor. In this study we used a label-free quantitative proteomic approach to estimate differences in protein abundance between two closely related M. tuberculosis strains; the virulent H37Rv strain and its attenuated counterpart H37Ra.ResultsWe were able to identify more than 1700 proteins from both strains. As expected, the majority of the identified proteins had similar relative abundance in the two strains. However, 29 membrane-associated proteins were observed with a 5 or more fold difference in their relative abundance in one strain compared to the other. Of note, 19 membrane- and lipo-proteins had higher abundance in H37Rv, while another 10 proteins had a higher abundance in H37Ra. Interestingly, the possible protein-export membrane protein SecF (Rv2586c), and three ABC-transporter proteins (Rv0933, Rv1273c and Rv1819c) were among the more abundant proteins in M. tuberculosis H37Rv.ConclusionOur data suggests that the bacterial secretion system and the transmembrane transport system may be important determinants of the ability of distinct M. tuberculosis strains to cause disease.
Background: While the genomic annotations of diverse lineages of the Mycobacterium tuberculosis complex are available, divergences between gene prediction methods are still a challenge for unbiased protein dataset generation. M. tuberculosis gene annotation is an example, where the most used datasets from two independent institutions (Sanger Institute and Institute of Genomic Research-TIGR) differ up to 12% in the number of annotated open reading frames, and 46% of the genes contained in both annotations have different start codons. Such differences emphasize the importance of the identification of the sequence of protein products to validate each gene annotation including its sequence coding area.
Culture filtrates of Mycobacterium tuberculosis H37Rv highly enriched with secreted proteins were used to identify antigens recognized by a serum pool from tuberculosis patients. Two different approaches were used to separate the culture filtrate protein mixture: (i) proteins were fractionated according to their hydrophobicity using an HPLC‐C18 chromatography column followed by separation based on their molecular mass by SDS‐PAGE and subsequent immunoblotting or (ii) proteins were separated by two‐dimensional gel electrophoresis, based on their isoelectric point and their molecular mass. Twenty serologically reactive proteins were ultimately identified by both methods, including four novel antigens. Further, to estimate the immunogenicity of the identified culture filtrate proteins, the relative antibody quantities were measured using Image master software. Our results show that the antibodies against proteins belonging to the antigen 85 complex were the most abundant in the serum of patients with active tuberculosis. The most immunogenic proteins in terms of high antibody‐to‐protein‐ratio were Rv3881c and three lipoproteins Rv0934 (the 38 kDa antigen), Rv0932c (pstS2), and Rv3006 (LppZ). Rv3881c is located in the region of difference 1 (RD1) which is deleted from Mycobacterium bovis BCG, and is therefore a particularly promising candidate for development of serodiagnostic assays to detect active tuberculosis. The proteins from the M. tuberculosis H37Rv culture filtrate are strong candidates to be evaluated for improvement of the serodiagnostic tests of tuberculosis.
Tuberculosis is an ancient disease that remains a significant global health problem. Because many membrane and membrane-associated proteins of this pathogen represent potential targets for drugs, diagnostic probes or vaccine components, we have analysed Mycobacterium bovis, bacillus Calmette-Guérin (BCG) substrain Moreau, using Triton X-114 for extraction of lipophilic proteins, followed by identification with LC coupled MS/MS. We identified 351 different proteins in total, and 103 (29%) were predicted as integral membrane proteins with at least one predicted transmembrane region and another 84 (23.9%) proteins had a positive grand average of hydropathicity (GRAVY) value, indicating increased probability for membrane association. Altogether 43 predicted lipoproteins (Lpps) were identified which is close to 50% of the total number of Lpps in the genome. Fifty-four proteins, including twenty-four predicted integral membrane proteins and seven predicted Lpps are described for the first time. The proportion of hydrophobic membrane and membrane-associated proteins shows that Triton X-114 is a highly efficient method for extraction of membrane proteins from bacteria, without the need for preisolation of membranes. ATP synthase, NAD(P) transhydrogenase, ubiquinone oxidoreductase and ubiquinol-cytochrome C reductase appear to represent major enzyme complexes in the membrane of Mycobacterium tuberculosis complex organisms.
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