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Compound
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Query: UMLS:C1832526 (
PCC
)
5,967
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In the absence of exogenous donors, turnover of 10 molar equivalents of H(2)O(2) by wild-type recombinant cytochrome c peroxidase [
CCP
(MI)] and its W191F mutant at pH 7.0 occurs by oxidation of endogenous donors on the polypeptide. No O(2) evolution was observed with either enzyme on reaction with 10 molar equivalents of H(2)O(2), eliminating catalase-like activity, but O(2) evolution was observed when 100 molar equivalents of H(2)O(2) were added to the enzymes. Protein dimers were observed by SDS-PAGE following H(2)O(2) turnover by the peroxidases, and dimeric forms of
CCP
(MI) and
CCP
(W191) were isolated by gel-permeation chromatography. LC-
ESI
-MS analysis of the tryptic digests of the dimers revealed the previously reported T(6)-T(6) crosslink and a new crosslink between T(6)-T(26), but no T(26)-T(26) crosslink. The crosslinked tryptic peptides contain the exposed tyrosine residues Tyr36, Tyr39 and Tyr42 (T(6)), and Tyr229 and Tyr236 (T(26)). Addition of a spin trap, 2-methyl-2-nitrosopropane (MNP), to the
CCP
(MI)/H(2)O(2) reaction resulted in MNP labeling of peptides T(6), T(21) (which contains Tyr153) and T(26). MNP labeling of Tyr236 was found by sequencing peptide T(26). MNP labeling did not compete with dimerization of H(2)O(2)-oxidized
CCP
(W191F), suggesting that dityrosine formation in this mutant is very rapid owing to the high reactivity of radicals formed on T(6). H(2)O(2)-dependent formation of
CCP
-cytochrome c heterodimers was observed for both
CCP
(MI) and W191F in the presence of ferricytochrome c, the oxidized form of
CCP
's donor substrate. Interestingly, no H(2)O(2)-dependent cytochrome crosslinking to the W51F mutant was observed, even though this mutant underwent extensive homocrosslinking. The translocation of oxidizing equivalents from the heme to the surface residues of
CCP
is discussed in terms of an antioxidant role for
CCP
.
...
PMID:Different pathways of radical translocation in yeast cytochrome c peroxidase and its W191F mutant on reaction with H(2)O(2) suggest an antioxidant role. 1258 60
A new depsipeptide, cyanopeptolin 963 A (1), was isolated from an axenic strain of the toxic freshwater cyanobacterium Microcystis
PCC
7806. The structure of this compound was elucidated by chemical and spectroscopic analyses, including high-resolution
ESI
-FTICR-MS, 2-D NMR, and GC-MS of the hydrolysate. The major structural difference compared to previously characterized cyanopeptolins of this strain is the replacement of the basic amino acid in position 3 by L-tyrosine. Compound 1 displayed inhibitory activity against chymotrypsin with an IC50 value of 0.9 microM.
...
PMID:Cyanopeptolin 963A, a chymotrypsin inhibitor of Microcystis PCC 7806. 1549 57
Cyanobacteria are photosynthetic bacteria capable of producing hydrogen and secondary metabolites with potential pharmaceutical applications. A limited number of cyanobacterial 2-DE proteomic studies have been published, most of which are based on Synechocystis sp.
PCC
6803. Here, we report the use of 2-DE,
ESI
-MS/MS and protein bioinformatics tools to characterize the proteome of Anabaena variabilis ATCC 29413, a heterocystous nitrogen-fixing cyanobacterium that is a model organism for the study of nitrogen fixation. Using a 2-DE workflow that included the use of a detergent-based extraction buffer and 3-10 nonlinear IPG strips resulted in the identification of 254 unique proteins, with significantly better coverage of basic and low-abundance proteins that has been reported in 2-DE analyses of Synechocystis sp. A set of protein bioinformatics tools was employed to provide estimates of protein localization, hydrophobicity, abundance and other properties. The characteristics of the A. variabilis proteins identified in this study were compared against the theoretical proteome for this organism, and more generally within the cyanobacteria, to identify opportunities for further development of 2-DE-based cyanobacterial proteomics.
...
PMID:2-DE proteomic analysis of the model cyanobacterium Anabaena variabilis. 1744 38
