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Enzyme
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Target Concepts:
Gene/Protein
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Query: EC:3.6.3.14 (
ATP synthase
)
7,042
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Mitochondrial ATP synthases, the major producers of ATP in higher eukaryotic cells, are known to be regulated by a peptide designated IF(1). In contrast, in yeast three such peptides have been identified, IF(1) and STF(1), which inhibit the reverse ATPase reaction, and STF(2), a modulator of the action of these inhibitors. Despite significant homology to IF(1), STF(1) exhibits less than half ( approximately 40%) its inhibitory potency. The two-fold purpose of this bioinformatic study was to gain structural insight into the different inhibitory potencies of IF(1) and STF(1) and to determine to what extent yeast are unique in employing multiple peptides to regulate the
ATP synthase
. Sequence and secondary structural analyses and comparison with the known structure of bovine IF(1) predicted a dimeric structure for yeast STF(1) in which the C-terminal regions form a coiled-coil. Moreover, sequence comparisons showed that within this C-terminal region a conserved acidic residue (Asp 59) in yeast IF(1) is replaced by Asn in STF(1). In the known structure of bovine IF(1), predicted to be very similar to that of yeast IF(1), the residue Glu 68 corresponding to Asp 59 participates in the formation of a four-residue conserved acidic cluster in the middle of the coiled-coil in the C-terminal region. It is deduced here that this acidic cluster is likely to be important in the regulation of IF(1)'s inhibitory capacity and that replacement of conserved Asp 59 by Asn in STF(1) may reduce its potency. Although other homologs to the inhibitors IF(1) and STF(1) were not found in searches of available eukaryotic genomes, including human, a new homolog, named STF(3), with 65% identity to the modulator STF(2), was discovered within the yeast genome and identified to be expressed by searching the yeast
EST
database. Thus, yeast appears unique in regulating the
ATP synthase
by involving multiple peptides (IF(1), STF(1), STF(2), and perhaps STF(3)).
...
PMID:ATP synthase of yeast: structural insight into the different inhibitory potencies of two regulatory peptides and identification of a new potential regulator. 1217 55
Toxicity to o-sec-butylphenyl methylcarbamate compound (BPMC) was analyzed in the rice brown planthopper, Nilaparvata lugens, using a differential proteomics approach of identifying proteins on two dimensional-polyacrylamide gel electrophoresis (2D-PAGE). Proteome analysis from BPMC-treated brown planthopper resulted in the modulation of 22 proteins at the expression level as compared to control samples on coomassie brilliant blue (CBB) stained gels. Out of total 22 proteins, 10 proteins showed elevated expression, eight proteins showed decreased expression and four proteins showed specific expression after insecticide treatment. The N-terminal sequences of seven out of 22 proteins were determined by a gas-phase protein sequencer. The internal amino acid sequences of the 15 proteins were determined by the sequence analyses of peptides obtained by Cleveland peptide mapping method and were compared with those of the known proteins available in public databases and the
EST
database of the brown planthopper in our laboratory to understand the nature of the proteins. Sequence analyses revealed that the expression of putative serine/threonine protein kinase, paramyosin, HSP 90, beta-tubulin, calreticulin,
ATP synthase
, actin and tropomyosin was elevated, and that of beta-mitochondrial processing peptidase, dihydrolipoamide dehydrogenase, enolase and acyl-coA dehydrogenase was reduced due to the exposure of BPMC. The differential expression of these proteins reflects the overall change in cellular structure and metabolism after insecticide treatment.
...
PMID:Proteomic analysis of brown planthopper: application to the study of carbamate toxicity. 1511 Aug 63
Pollen development is disturbed in the early tetrad stage of the YX-1 male sterile mutant of wolfberry (Lycium barbarum L.). The present study aimed to identify differentially expressed anther proteins and to reveal their possible roles in pollen development and male sterility. To address this question, the proteomes of the wild-type (WT) and YX-1 mutant were compared. Approximately 1760 protein spots on two-dimensional differential gel electrophoresis (2D-DIGE) gels were detected. A number of proteins whose accumulation levels were altered in YX-1 compared with WT were identified by mass spectrometry and the NCBInr and Viridiplantae
EST
databases. Proteins down-regulated in YX-1 anthers include ascorbate peroxidase (APX), putative glutamine synthetase (GS),
ATP synthase
subunits, chalcone synthase (CHS), CHS-like, putative callose synthase catalytic subunit, cysteine protease, 5B protein, enoyl-ACP reductase, 14-3-3 protein and basic transcription factor 3 (BTF3). Meanwhile, activities of APX and GS, RNA expression levels of apx and atp synthase beta subunit were low in YX-1 anthers which correlated with the expression of male sterility. In addition, several carbohydrate metabolism-related and photosynthesis-related enzymes were also present at lower levels in the mutant anthers. In contrast, 26S proteasome regulatory subunits, cysteine protease inhibitor, putative S-phase Kinase association Protein 1(SKP1), and aspartic protease, were expressed at higher levels in YX-1 anthers relative to WT anthers. Regulation of wolfberry pollen development involves a complex network of differentially expressed genes. The present study lays the foundation for future investigations of gene function linked with wolfberry pollen development and male sterility.
...
PMID:Proteome analysis of the wild and YX-1 male sterile mutant anthers of wolfberry (Lycium barbarum L.). 2286 20
The dinoflagellates are an important group of eukaryotic, single celled algae. They are the sister group of the Apicomplexa, a group of intracellular parasites and photosynthetic algae including the malaria parasite Plasmodium. Many apicomplexan mitochondria have a number of unusual features, including the lack of a pyruvate dehydrogenase and the existence of a branched TCA cycle. Here, we analyse dinoflagellate
EST
(expressed sequence tag) data to determine whether these features are apicomplexan-specific, or if they are more widespread. We show that dinoflagellates have replaced a key subunit (E1) of pyruvate dehydrogenase with a subunit of bacterial origin and that transcripts encoding many of the proteins that are essential in a conventional
ATP synthase
/Complex V are absent, as is the case in Apicomplexa. There is a pathway for synthesis of starch or glycogen as a storage carbohydrate. Transcripts encoding isocitrate lyase and malate synthase are present, consistent with ultrastructural reports of a glyoxysome. Finally, evidence for a conventional haem biosynthesis pathway is found, in contrast to the Apicomplexa, Chromera and early branching dinoflagellates (Perkinsus, Oxyrrhis).
...
PMID:An analysis of dinoflagellate metabolism using EST data. 2308 81
