Enzymes
UniProtKB help_outline | 2,678 proteins |
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Namehelp_outline
(2E)-butenoyl-[ACP]
Identifier
RHEA-COMP:9627
Reactive part
help_outline
- Name help_outline O-(S-2E-butenoylpantetheine-4ʼ-phosphoryl)-L-serine residue Identifier CHEBI:78453 Charge -1 Formula C18H29N3O9PS SMILEShelp_outline C\C=C\C(=O)SCCNC(=O)CCNC(=O)[C@H](O)C(C)(C)COP([O-])(=O)OC[C@H](N-*)C(-*)=O 2D coordinates Mol file for the small molecule Search links Involved in 6 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
- Name help_outline NADPH Identifier CHEBI:57783 (Beilstein: 10411862) help_outline Charge -4 Formula C21H26N7O17P3 InChIKeyhelp_outline ACFIXJIJDZMPPO-NNYOXOHSSA-J SMILEShelp_outline NC(=O)C1=CN(C=CC1)[C@@H]1O[C@H](COP([O-])(=O)OP([O-])(=O)OC[C@H]2O[C@H]([C@H](OP([O-])([O-])=O)[C@@H]2O)n2cnc3c(N)ncnc23)[C@@H](O)[C@H]1O 2D coordinates Mol file for the small molecule Search links Involved in 1,288 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
- Name help_outline H+ Identifier CHEBI:15378 Charge 1 Formula H InChIKeyhelp_outline GPRLSGONYQIRFK-UHFFFAOYSA-N SMILEShelp_outline [H+] 2D coordinates Mol file for the small molecule Search links Involved in 9,521 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
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Namehelp_outline
butanoyl-[ACP]
Identifier
RHEA-COMP:9628
Reactive part
help_outline
- Name help_outline O-(S-butanoylpantetheine-4ʼ-phosphoryl)-L-serine residue Identifier CHEBI:78454 Charge -1 Formula C18H31N3O9PS SMILEShelp_outline CCCC(=O)SCCNC(=O)CCNC(=O)[C@H](O)C(C)(C)COP([O-])(=O)OC[C@H](N-*)C(-*)=O 2D coordinates Mol file for the small molecule Search links Involved in 3 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
- Name help_outline NADP+ Identifier CHEBI:58349 Charge -3 Formula C21H25N7O17P3 InChIKeyhelp_outline XJLXINKUBYWONI-NNYOXOHSSA-K SMILEShelp_outline NC(=O)c1ccc[n+](c1)[C@@H]1O[C@H](COP([O-])(=O)OP([O-])(=O)OC[C@H]2O[C@H]([C@H](OP([O-])([O-])=O)[C@@H]2O)n2cnc3c(N)ncnc23)[C@@H](O)[C@H]1O 2D coordinates Mol file for the small molecule Search links Involved in 1,294 reaction(s) Find molecules that contain or resemble this structure Find proteins in UniProtKB for this molecule
Cross-references
RHEA:41812 | RHEA:41813 | RHEA:41814 | RHEA:41815 | |
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Reaction direction help_outline | undefined | left-to-right | right-to-left | bidirectional |
UniProtKB help_outline |
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Related reactions help_outline
More general form(s) of this reaction
Publications
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The enoyl-[acyl-carrier-protein] reductases FabI and FabL from Bacillus subtilis.
Heath R.J., Su N., Murphy C.K., Rock C.O.
Enoyl-[acyl-carrier-protein] (ACP) reductase is a key enzyme in type II fatty-acid synthases that catalyzes the last step in each elongation cycle. The FabI component of Bacillus subtilis (bsFabI) was identified in the genomic data base by homology to the Escherichia coli protein. bsFabI was clone ... >> More
Enoyl-[acyl-carrier-protein] (ACP) reductase is a key enzyme in type II fatty-acid synthases that catalyzes the last step in each elongation cycle. The FabI component of Bacillus subtilis (bsFabI) was identified in the genomic data base by homology to the Escherichia coli protein. bsFabI was cloned and purified and exhibited properties similar to those of E. coli FabI, including a marked preference for NADH over NADPH as a cofactor. Overexpression of the B. subtilis fabI gene complemented the temperature-sensitive growth phenotype of an E. coli fabI mutant. Triclosan was a slow-binding inhibitor of bsFabI and formed a stable bsFabI.NAD(+). triclosan ternary complex. Analysis of the B. subtilis genomic data base revealed a second open reading frame (ygaA) that was predicted to encode a protein with a relatively low overall similarity to FabI, but contained the Tyr-Xaa(6)-Lys enoyl-ACP reductase catalytic architecture. The purified YgaA protein catalyzed the NADPH-dependent reduction of trans-2-enoyl thioesters of both N-acetylcysteamine and ACP. YgaA was reversibly inhibited by triclosan, but did not form the stable ternary complex characteristic of the FabI proteins. Expression of YgaA complemented the fabI(ts) defect in E. coli and conferred complete triclosan resistance. Single knockouts of the ygaA or fabI gene in B. subtilis were viable, but double knockouts were not obtained. The fabI knockout was as sensitive as the wild-type strain to triclosan, whereas the ygaA knockout was 250-fold more sensitive to the drug. YgaA was renamed FabL to denote the discovery of a new family of proteins that carry out the enoyl-ACP reductase step in type II fatty-acid synthases. << Less
J. Biol. Chem. 275:40128-40133(2000) [PubMed] [EuropePMC]
This publication is cited by 2 other entries.
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Human fatty acid synthase: properties and molecular cloning.
Jayakumar A., Tai M.-H., Huang W.-Y., Al-Feel W., Hsu M., Abu-Elheiga L., Chirala S.S., Wakil S.J.
Fatty acid synthase (FAS; EC 2.3.1.85) was purified to near homogeneity from a human hepatoma cell line, HepG2. The HepG2 FAS has a specific activity of 600 nmol of NADPH oxidized per min per mg, which is about half that of chicken liver FAS. All the partial activities of human FAS are comparable ... >> More
Fatty acid synthase (FAS; EC 2.3.1.85) was purified to near homogeneity from a human hepatoma cell line, HepG2. The HepG2 FAS has a specific activity of 600 nmol of NADPH oxidized per min per mg, which is about half that of chicken liver FAS. All the partial activities of human FAS are comparable to those of other animal FASs, except for the beta-ketoacyl synthase, whose significantly lower activity is attributable to the low 4'-phosphopantetheine content of HepG2 FAS. We cloned the human brain FAS cDNA. The cDNA sequence has an open reading frame of 7512 bp that encodes 2504 amino acids (M(r), 272,516). The amino acid sequence of the human FAS has 79% and 63% identity, respectively, with the sequences of the rat and chicken enzymes. Northern analysis revealed that human FAS mRNA was about 9.3 kb in size and that its level varied among human tissues, with brain, lung, and liver tissues showing prominent expression. The nucleotide sequence of a segment of the HepG2 FAS cDNA (bases 2327-3964) was identical to that of the cDNA from normal human liver and brain tissues, except for a 53-bp sequence (bases 3892-3944) that does not alter the reading frame. This altered sequence is also present in HepG2 genomic DNA. The origin and significance of this sequence variance in the HepG2 FAS gene are unclear, but the variance apparently does not contribute to the lower activity of HepG2 FAS. << Less
Proc. Natl. Acad. Sci. U.S.A. 92:8695-8699(1995) [PubMed] [EuropePMC]
This publication is cited by 38 other entries.
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Human fatty acid synthase: assembling recombinant halves of the fatty acid synthase subunit protein reconstitutes enzyme activity.
Jayakumar A., Chirala S.S., Wakil S.J.
Our model of the native fatty acid synthase (FAS) depicts it as a dimer of two identical multifunctional proteins (Mr approximately 272,000) arranged in an antiparallel configuration so that the active Cys-SH of the beta-ketoacyl synthase of one subunit (where the acyl group is attached) is juxtap ... >> More
Our model of the native fatty acid synthase (FAS) depicts it as a dimer of two identical multifunctional proteins (Mr approximately 272,000) arranged in an antiparallel configuration so that the active Cys-SH of the beta-ketoacyl synthase of one subunit (where the acyl group is attached) is juxtaposed within 2 A of the pantetheinyl-SH of the second subunit (where the malonyl group is bound). This arrangement generates two active centers for fatty acid synthesis and predicts that if we have two appropriate halves of the monomer, we should be able to reconstitute an active fatty acid-synthesizing site. We cloned, expressed, and purified catalytically active thioredoxin (TRX) fusion proteins of the NH2-terminal half of the human FAS subunit protein (TRX-hFAS-dI; residues 1-1,297; Mr approximately 166) and of the C-terminal half (TRX-hFAS-dII-III; residues 1,296-2,504; Mr approximately 155). Adding equivalent amounts of TRX-hFAS-dI and TRX-hFAS-dII-III to a reaction mixture containing acetyl-CoA, malonyl-CoA, and NADPH resulted in the synthesis of long-chain fatty acids. The rate of synthesis was dependent upon the presence of both recombinant proteins and reached a constant level when they were present in equivalent amounts, indicating that the reconstitution of an active fatty acid-synthesizing site required the presence of every partial activity associated with the subunit protein. Analyses of the product acids revealed myristate to be the most abundant with small amounts of palmitate and stearate, possibly because of the way the fused recombinant proteins interacted with each other so that the thioesterase hydrolyzed the acyl group in its myristoyl state. The successful reconstitution of the human FAS activity from its domain I and domains II and III fully supports our model for the structure-function relationship of FAS in animal tissues. << Less
Proc. Natl. Acad. Sci. U.S.A. 94:12326-12330(1997) [PubMed] [EuropePMC]
This publication is cited by 26 other entries.
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Cloning and expression of the multifunctional human fatty acid synthase and its subdomains in Escherichia coli.
Jayakumar A., Huang W.Y., Raetz B., Chirala S.S., Wakil S.J.
We engineered a full-length (8.3-kbp) cDNA coding for fatty acid synthase (FAS; EC 2.3.1.85) from the human brain FAS cDNA clones we characterized previously. In the process of accomplishing this task, we developed a novel PCR procedure, recombinant PCR, which is very useful in joining two overlap ... >> More
We engineered a full-length (8.3-kbp) cDNA coding for fatty acid synthase (FAS; EC 2.3.1.85) from the human brain FAS cDNA clones we characterized previously. In the process of accomplishing this task, we developed a novel PCR procedure, recombinant PCR, which is very useful in joining two overlapping DNA fragments that do not have a common or unique restriction site. The full-length cDNA was cloned in pMAL-c2 for heterologous expression in Escherichia coli as a maltose-binding protein fusion. The recombinant protein was purified by using amylose-resin affinity and hydroxylapatite chromatography. As expected from the coding capacity of the cDNA expressed, the chimeric recombinant protein has a molecular weight of 310,000 and reacts with antibodies against both human FAS and maltose-binding protein. The maltose-binding protein-human FAS (MBP-hFAS) catalyzed palmitate synthesis from acetyl-CoA, malonyl-CoA, and NADPH and exhibited all of the partial activities of FAS at levels comparable with those of the native human enzyme purified from HepG2 cells. Like the native HepG2 FAS, the products of MBP-hFAS are mainly palmitic acid (> 90%) and minimal amounts of stearic and arachidic acids. Similarly, a human FAS cDNA encoding domain I (beta-ketoacyl synthase, acetyl-CoA and malonyl-CoA transacylases, and beta-hydroxyacyl dehydratase) was cloned and expressed in E. coli using pMAL-c2. The expressed fusion protein, MBP-hFAS domain I, was purified to apparent homogeneity (M(r) 190,000) and exhibited the activities of the acetyl/malonyl transacylases and the beta-hydroxyacyl dehydratase. In addition, a human FAS cDNA encoding domains II and III (enoyl and beta-ketoacyl reductases, acyl carrier protein, and thioesterase) was cloned in pET-32b(+) and expressed in E. coli as a fusion protein with thioredoxin and six in-frame histidine residues. The recombinant fusion protein, thioredoxin-human FAS domains II and III, that was purified from E. coli had a molecular weight of 159,000 and exhibited the activities of the enoyl and beta-ketoacyl reductases and the thioesterase. Both the MBP and the thioredoxin-His-tags do not appear to interfere with the catalytic activity of human FAS or its partial activities. << Less
Proc. Natl. Acad. Sci. U.S.A. 93:14509-14514(1996) [PubMed] [EuropePMC]
This publication is cited by 36 other entries.
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Animal fatty acid synthetase. A novel arrangement of the beta-ketoacyl synthetase sites comprising domains of the two subunits.
Stoops J.K., Wakil S.J.
J Biol Chem 256:5128-5133(1981) [PubMed] [EuropePMC]
This publication is cited by 2 other entries.