EC:2.3.3.1 - FACTA Search

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Query: EC:2.3.3.1 (citrate synthase)
4,488 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The crystal structure of pig heart citrate synthase was analyzed at 0.35-nm resolution. Chain tracing was possible and an initial molecular model constructed. The dimensions of the dimer molecule (located on a crystallographic diad) are 7.5 x 6.0 x 9.0 nm. The chain folding is characterized by the predominance of helices and the absence of sheet structure. The electron density accounts for 355 residues per monomer, so that about 80 residues must be disordered in the crystal. The disordered segment in probably N-terminal. The ordered part consists of two closely associated domains, a large domain with 300 residues and a C-terminal domain of 55 residues consisting of 3(anti)parallel helices. The large domain is built from 12 helical segments, some of which are buried in the interior of the molecule. Inhibitor binding studies with citrate and CoA revealed citrate binding sites but showed no electron density for CoA. It is suggested that CoA binds to the disordered, flexible N-terminal domain. Experiments of limited proteolysis with trypsin showed that under conditions a segment of Mr 9000 is cleaved off selectively. The remaining 35 000-Mr part is dimeric.
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PMID:Crystal structure analysis of the tetragonal crystal form are preliminary molecular model of pig-heart citrate synthase. 43 30

1. Limited proteolysis of citrate synthase from Sulfolobus solfataricus by trypsin reduced the rate of the overall reaction (acetyl-CoA + oxaloacetate + H2O----citrate + CoASH) to 4% but did not affect the hydrolysis of citryl-CoA. Experimental results indicate that a connecting link between the enzyme's ligase and hydrolase activity becomes impaired specifically on treatment with trypsin. Other proteolytic enzymes like chymotrypsin and subtilisin inactivated catalytic functions of citrate synthase, ligase and hydrolase, equally well. 2. Tryptic hydrolysis occurs at the N-terminal region of citrate synthase, but a study by SDS/PAGE revealed no difference in molecular mass between native and proteolytically nicked citrate synthase. The peptide removed from the enzyme by trypsin, therefore, contains less than about 15 amino acid residues. 3. The Km values of the substrates for both native and nicked enzyme were identical, as was the state of aggregation (dimeric) of the two enzyme species. These could be separated by affinity chromatography on Blue-Sepharose and differentiated by their isoelectric points (pI = 6.68 +/- 0.08 and pI = 6.37 +/- 0.03 for native citrate synthase and the large tryptic peptide, respectively) as well as by the N-terminus which is blocked in the native enzyme only. 4. Edman degradation of the large tryptic fragment yielded the N-terminal sequence GLEDVYIKSTSLTYIDGVNGVLRY, which is 71% identical to the N-terminal region (positions 9-32) of citrate synthase from Thermoplasma acidophilum. 5. The conversion of citrate synthase into essentially a citryl-CoA hydrolase is considered the consequence of a conformational change thought to occur on tryptic removal of the N-terminal small peptide.
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PMID:Conversion, by limited proteolysis, of an archaebacterial citrate synthase into essentially a citryl-CoA hydrolase. 152 37

The orientation of the condensing enzyme, the beta-hydroxyacyl-CoA dehydrase, and the trans-2-enoyl CoA reductase within the rat liver microsomal membrane was investigated by the use of impermeant inhibitors of enzyme activity: trypsin, chymotrypsin, subtilisin, mercury-dextran, and anti-beta-hydroxyacyl-CoA dehydrase IgG. The activity of the condensing enzyme was inhibited more than 70% by various proteases and was completely inhibited by 80 microM mercury-dextran. Similar results were obtained for the trans-2-enoyl-CoA reductase activity. On the other hand, in the absence of detergent, proteases inhibited beta-hydroxyacyl-CoA dehydrase activity by 25-40%, while in the presence of detergent the inhibition increased to 65-90%. Furthermore, anti-beta-hydroxyacyl-CoA dehydrase IgG, which in the absence of detergent produced no inhibition, in the presence of detergent inhibited beta-hydroxyacyl-CoA dehydrase activity by more than 80%; under identical conditions, preimmune IgG caused a 13% inhibition. Microsomes used throughout this study displayed greater than 90% latency with respect to mannose-6-phosphatase activity, indicating that the microsomes were intact. Latency was not affected by the proteases, by mercury-dextran, or by the presence of the enzyme assay components. These results suggest that both the condensing enzyme and the reductase are present on the cytoplasmic surface of the membrane, whereas the beta-hydroxyacyl-CoA dehydrase is embedded in the microsomal membrane.
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PMID:Topography of rat hepatic microsomal enzymatic components of the fatty acid chain elongation system. 254 Jan 64

Limited proteolysis of citrate synthase by Astacus protease, chymotrypsin, clostripain, subtilisin and trypsin on primary fragmentation all yielded similarly sized large (Mr 35 000-36 000) and small fragments (Mr 13 500-14 000) but endoproteinase Lys-C gave fragments of Mr 40 500 and Mr 6500. The sites of the proteolytic attack were determined by Edman degradation of the fragmented synthase preparations, Chymotrypsin, subtilisin, trypsin and endoproteinase Lys-C hydrolyse the synthase at positions 323-324 (-Leu-Arg-), 321-322 (-Ala-Val-)/322-323 (-Val-Leu-), 313-314 (-Arg-Val-) and 366-367 (-Lys-Ala-), respectively. Chymotrypsin and subtilisin attack the small domain of the synthase at the loop between helices O and P very near to a catalytic residue, His-320, and abolish all synthase activities. Primary fragmentation by endoproteinase Lys-C and trypsin reduces the catalytic activity in the physiological overall reaction. Both fragmented enzyme species catalyse the hydrolysis and C-C bond cleavage reactions of citryl-CoA in a stimulated fashion compared to the steady-state rates of the native enzyme, and without hysteretic behaviour. The proteolytic cleavage occurs at acetyl-CoA binding sites within the small domain at the loops connecting helices O to P (trypsin) and Q to R (endoproteinase Lys-C) and reduces the affinity of acetyl-CoA. All of the altered kinetic properties of the fragmented enzyme species are related to this reduced affinity. The correlation between structure and function indicated above is strengthened by the unaltered affinity of oxaloacetate towards the fragmented synthase species. None of the proteolytic enzymes applied attacks oxaloacetate binding sites as defined by the structural work. Oxaloacetate inhibits the hydrolysis of citryl-CoA by the fragmented synthases (endoproteinase Lys-C, trypsin) competitively. An explanation is proposed. The isolated small and large fragments (endoproteinase Lys-C, trypsin) were enzymically inactive. Enzymic activity was restored on recombination of the fragments under denaturing conditions. Cleavage of the loops between helices O to P and Q to R by sequential fragmentation with endoproteinase Lys-C and trypsin inactivated the synthase completely. This result lends support to the idea that the open and closed crystal forms of the structural work are interconverted during the catalytic cycle.
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PMID:Hysteretic behaviour of citrate synthase. Site-directed limited proteolysis. 638 Oct 53

Active-site peptides of acetyl transferase, condensing enzyme and acyl carrier protein in the neighborhood of the prosthetic group, 4'-phosphopantetheine, of Cephalosporium caerulens fatty acid synthetase were investigated. The enzyme was reacted with [14C]acetyl-CoA or [14C]iodoacetamide. 14C-Labeled enzyme was digested with pepsin, trypsin or both. 14C-Labeled peptides were isolated by several purification procedures. The amino acid sequence of the active site of condensing enzyme was determined to be Tyr-Gln-Val-Glu-Ser-Cys-Pro-Ile-Leu-Glu-Gly-Lys and that of acetyl transferase was Phe-Ser-Gly-Ala-Thr-Gly-His-Ser-Gln-Gly. The amino acid composition around the 4'-phosphopantetheine-carrying serine was determined to be Asx2, Thr, Ser, Glx3, Gly2, Ala, Ile, Leu3, and Lys. When these active-site peptides were compared with those of Saccharomyces cerevisiae synthetase, a high degree of homology was observed in the active-site peptides of the acetyl transferase and acyl carrier protein domains. However, that of the condensing enzyme domain gave lower homology. These findings may support the assumption that the low reactivity of cerulenin with C. caerulens synthetase is a consequence of the structure of the condensing enzyme domain.
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PMID:Cerulenin resistance in a cerulenin-producing fungus. III. Studies on active-site peptides of fatty acid synthetase from Cephalosporium caerulens. 654 Jul 72

Pig heart citrate synthase was subjected to limited proteolytic attack by subtilisin, chymotrypsin, and trypsin in the presence of palmitoyl-CoA. Initial proteolysis by all three proteolytic enzymes resulted in cleavage of the monomeric subunit (Mr 45 000 +/- 3000) into a large (Mr 35 000-38 500) and a small (Mr 9000 +/- 3000) into a large (Mr 35 000-38 500) and a small (Mr 9000-12 000) fragment. Further proteolysis of the large subunit produced a secondary fragment (Mr 31 000-36 000). The small (Mr 9000-12 000) fragment was stable in the presence of subtilisin but was substantially degraded by both chymotrypsin and trypsin. The actual molecular weight of fragments varied with the choice of the proteolytic enzyme. Limited proteolysis was absolutely dependent on the presence of palmitoyl-CoA and resulted in complete inhibition of the catalytic activity of the enzyme. Citrate, ammonium sulfate, and especially oxaloacetate provided complete protection against proteolysis whereas acetyl-CoA, CoASH, NADH, and ATP were ineffective. Reaction of rabbit anti-citrate synthase with citrate synthase and its proteolytic fragments indicated that the main antigenic region lay primarily in the small fragment. The products of subtilisin cleavage were isolated by gel filtration under denaturing conditions. The large (Mr 35 000-38 500) fragment contained the amino-terminal (approximately)336 amino acids and the small fragment contained the remaining carboxyl-terminal amino acids. The results are discussed in relation to the structure of citrate synthase.
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PMID:Limited proteolysis of pig heart citrate synthase by subtilisin, chymotrypsin, and trypsin. 677 58

The sequence of 437 amino acid residues of porcine heart citrate synthase [citrate oxaloacetate-lyase (pro-3S-CH2COO leads to acetyl-CoA), EC 4. 1. 3. 7] has been determined by the alignment of fragments generated by cleavage with cyanogen bromide and with trypsin. Isolation of the peptides was facilitated by recent developments in the high-performance liquid chromatography of peptide mixtures. The alignment of these peptides was consistent with that previously deduced from fragments derived by restricted cleavage of citrate synthase by limited proteolysis and cleavage of aspartyl-prolyl bonds and asparaginyl-glycyl bonds. The enzyme contains a modified amino acid, trimethyllysine, at residue 368, showing that the enzyme is subjected to post-translational modification.
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PMID:Primary structure of porcine heart citrate synthase. 679 32

The detailed proof of the 437-residue amino acid sequence (Mr 48,969) of porcine heart citrate synthase (EC 4.13.7) is described. The S-carboxymethylated protein has been cleaved at methionine (cyanogen bromide) and arginine (trypsin digest of citraconylated enzyme) residues to yield 14 and 17 major peptides, respectively. Peptides were initially fractionated by gel filtration, and those useful for sequence analysis were purified by high-performance liquid chromatography. Sequence analyses were performed on these primary peptides and on subpeptides generated by cleavage with the bromine adduct of 2-[(2-nitrophenyl)sulfenyl]-3-methylindole, Staphylococcus aureus V8 protease, trypsin, chymotrypsin, or acid. The overall sequence was confirmed by analyzing products of cleavage by hydroxylamine, acid, and subtilisin. A novel feature of the sequence is the identification of trimethyllysine at residue 368.
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PMID:Complete amino acid sequence of porcine heart citrate synthase. 709 27

Ligand-induced conformational changes of GroEL alone and with bound rhodanese, citrate synthase, or dihydrofolate reductase were studied by limited proteolysis. Similar digestion patterns of GroEL, with or without bound substrate polypeptide, were obtained in the absence and presence of the chaperonin ligands, K+, Mg2+, or ATP. The rates of formation and degradation of the six produced proteolytic fragments were significantly different, however. Strikingly, only with Mg2+/ATP or K+/Mg2+/ATP an additional fragment of approximately 25 kDa was generated during digestion of GroEL alone or with bound rhodanese or dihydrofolate reductase, but not with bound citrate synthase. Most of the trypsin-sensitive sites in GroEL were localized in the flexible apical domain, which contains the putative polypeptide-binding region. Our data indicate that subtle structural changes in the trypsin-sensitive regions of GroEL occur as a result of the binding of the chaperonin ligands. However, these structural changes are influenced by the GroEL substrate polypeptides.
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PMID:Ligand-induced conformational changes of GroEL are dependent on the bound substrate polypeptide. 866 87

Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOFMS) of proteins and peptides was performed on samples deposited onto non-porous ether-type polyurethane (PU) membranes. Spectra obtained using PU membranes showed that mass resolution and accuracy were equivalent to values observed using a metal target, and superior to those obtained using poly(vinylidene difluoride) (PVDF) membranes. A small apparent increase in the mass of proteins and also loss of resolution were observed at very high laser irradiance due to charging, but were not observed under normal conditions. Analysis of NaCl-doped standards demonstrated that PU membranes yielded better results than a metallic target for salt-containing solutions. Relatively strong hydrophobic interactions between the proteins and peptides and the PU membrane allowed the incorporation of a washing step. This step allowed for the removal of salts and buffer components and thus provided an increase in resolution and mass accuracy. Digestion of citrate synthase (a protein of molecular weight 47,886) with trypsin was performed directly on the surface of the membrane for variable periods of time, and characteristic peptide fragments were observed by MALDI-TOFMS. Delayed extraction was used to increase the resolution and to permit more accurate mass assignments for those fragments. The use of PU membranes for MALDI-TOFMS analysis of proteins with higher molecular weights is also demonstrated.
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PMID:Use of a non-porous polyurethane membrane as a sample support for matrix-assisted laser desorption/ionization time-of-flight mass spectrometry of peptides and proteins. 936 98

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