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Pivot Concepts:
Gene/Protein
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Target Concepts:
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Query: EC:3.4.24.11 (
CD10
)
9,792
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
As a preliminary step in the understanding of the function of the Escherichia coli
HtrA
(DegP) protein, which is indispensable for bacterial survival only at elevated temperatures, the protein was purified and partially characterized. The
HtrA
protein was purified from cells carrying the htrA gene cloned into a multicopy plasmid, resulting in its overproduction. The sequence of the 13 N-terminal amino acids of the purified
HtrA
protein was determined and was identical to the one predicted for the mature
HtrA
protein by the DNA sequence of the cloned gene. Moreover, the N-terminal sequence showed that the 48-kilodalton
HtrA
protein is derived by cleavage of the first 26 amino acids of the pre-
HtrA
precursor polypeptide and that the point of cleavage follows a typical target sequence recognized by the leader peptidase enzyme. The
HtrA
protein was shown to be a specific
endopeptidase
which was inhibited by diisopropylfluorophosphate, suggesting that
HtrA
is a serine protease.
...
PMID:The HtrA (DegP) protein, essential for Escherichia coli survival at high temperatures, is an endopeptidase. 218 Sep 3
In a previous comparative proteomic study of Bacillus anthracis examining the influence of the virulence plasmids and of various growth conditions on the composition of the bacterial secretome, we identified 64 abundantly expressed proteins (T. Chitlaru, O. Gat, Y. Gozlan, N. Ariel, and A. Shafferman, J. Bacteriol. 188:3551-3571, 2006). Using a battery of sera from B. anthracis-infected animals, in the present study we demonstrated that 49 of these proteins are immunogenic. Thirty-eight B. anthracis immunogens are documented in this study for the first time. The relative immunogenicities of the 49 secreted proteins appear to span a >10,000-fold range. The proteins eliciting the highest humoral response in the course of infection include, in addition to the well-established immunogens protective antigen (PA), Sap, and EA1, GroEL (BA0267), AhpC (BA0345), MntA (BA3189),
HtrA
(BA3660), 2,3-cyclic nucleotide diesterase (BA4346), collagen adhesin (BAS5205), an alanine amidase (BA0898), and an
endopeptidase
(BA1952), as well as three proteins having unknown functions (BA0796, BA0799, and BA0307). Of these 14 highly potent secreted immunogens, 11 are known to be associated with virulence and pathogenicity in B. anthracis or in other bacterial pathogens. Combining the results reported here with the results of a similar study of the membranal proteome of B. anthracis (T. Chitlaru, N. Ariel, A. Zvi, M. Lion, B. Velan, A. Shafferman, and E. Elhanany, Proteomics 4:677-691, 2004) and the results obtained in a functional genomic search for immunogens (O. Gat, H. Grosfeld, N. Ariel, I. Inbar, G. Zaide, Y. Broder, A. Zvi, T. Chitlaru, Z. Altboum, D. Stein, S. Cohen, and A. Shafferman, Infect. Immun. 74:3987-4001, 2006), we generated a list of 84 in vivo-expressed immunogens for future evaluation for vaccine development, diagnostics, and/or therapeutic intervention. In a preliminary study, the efficacies of eight immunogens following DNA immunization of guinea pigs were compared to the efficacy of a PA DNA vaccine. All eight immunogens induced specific high antibody titers comparable to the titers elicited by PA; however, unlike PA, none of them provided protection against a lethal challenge (50 50% lethal doses) of virulent B. anthracis strain Vollum spores.
...
PMID:Identification of in vivo-expressed immunogenic proteins by serological proteome analysis of the Bacillus anthracis secretome. 1735 82
A search for bacterium-specific biomarkers in peripheral blood following infection with Bacillus anthracis was carried out with rabbits, using a battery of specific antibodies generated by DNA vaccination against 10 preselected highly immunogenic bacterial antigens which were identified previously by a genomic/proteomic/serologic screen of the B. anthracis secretome. Detection of infection biomarkers in the circulation of infected rabbits could be achieved only after removal of highly abundant serum proteins by chromatography using a random-ligand affinity column. Besides the toxin component protective antigen, the following three secreted proteins were detected in the circulation of infected animals: the chaperone and protease
HtrA
(BA3660), an NlpC/P60
endopeptidase
(BA1952), and a protein of unknown function harboring two SH3 (Src homology 3) domains (BA0796). The three proteins could be detected in plasma samples from infected animals exhibiting 10(3) to 10(5) CFU/ml blood and also in standard blood cultures at 3 to 6 h post-bacterial inoculation at a bacteremic level as low as 10(3) CFU/ml. Furthermore, the three biomarkers appear to be present only in the secretome of B. anthracis, not in those of the related pathogens B. thuringiensis and B. cereus. To the best of our knowledge, this is the first report of direct detection of B. anthracis-specific proteins, other than the toxin components, in the circulation of infected animals.
...
PMID:Novel and unique diagnostic biomarkers for Bacillus anthracis infection. 1964 66
We report here the use of a peptidomic approach to revisit the extracellular proteolysis of Lactococcus lactis. More than 1800 distinct peptides accumulate externally during growth of the plasmid-free protease-negative strain L. lactis IL1403 in a protein- and peptide-free medium. These peptides mainly originate from cell-surface- and cytoplasmic-located proteins, despite the fact that no cell lysis could be evidenced. Positioning each identified peptide on its parental protein sequence demonstrated the involvement of exo- and
endopeptidase
activities. The endopeptidases responsible for the release of surface and cytoplasmic peptides had distinct specificities. The membrane-anchored protease
HtrA
was responsible for the release of only a part of the surface peptides, and its preference for branched-chain amino acids in the N-terminal side of the cleaved bond was established in situ. Other yet uncharacterized surface proteases were also involved. Several lines of evidence suggest that surface and cytoplasmic peptides were produced by different routes, at least part of the latter being most likely excreted as peptides from the cells. The mechanism by which these cytoplasmic peptides are excreted remains an open question, as it is still the case for excreted cytoplasmic proteins.
...
PMID:Mass Spectrometry Analysis of the Extracellular Peptidome of Lactococcus lactis: Lines of Evidence for the Coexistence of Extracellular Protein Hydrolysis and Intracellular Peptide Excretion. 2743 75
