Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:6.4.1.2 (acetyl-CoA carboxylase)
2,876 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The apo 1.3S subunit of transcarboxylase contains the sequence Ala-87-Met-88-Lys-89-Met-90, and it is Lys-89 that is biotinated. This sequence is highly conserved in all the biotin enzymes that have been sequenced (with the exception of acetyl-CoA carboxylase from chicken liver, which has Val in place of Ala). The role of Met-88 and Met-90 in specifying Lys-89 for biotination by synthetase was examined by site-directed mutagenesis. Genes of the 1.3S subunit coding for Thr-88, Leu-88, or Leu-90 were generated by oligonucleotide-directed in vitro mutagenesis and expressed in Escherichia coli. The mutated apo 1.3S subunits were isolated and the biotination by homogeneous synthetase from Propionibacterium shermanii was compared with that of the apo wild-type subunit. The Vmax for the apo mutants was the same as that for the apo wild type, but when Leu was substituted for Met-88 or Met-90, the Km for the mutant was lower than that of the wild-type or mutant Thr-88. The activity of the synthetase of E. coli was determined by an in vivo assay. During the early log phase of growth, a smaller portion of mutants Thr-88 and Leu-90 was biotinated than with the wild-type or mutant Leu-88. When the cultures progressed to stationary phase, mutants and the wild type were biotinated to the same extent. The overall results show that Met-88 and Met-90 are not required for biotination of the apo 1.3S subunit by the synthetases.
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PMID:Effect of mutations at Met-88 and Met-90 on the biotination of Lys-89 of the apo 1.3S subunit of transcarboxylase. 313 Nov 74

Biotin-dependent carboxylases require covalently bound biotin for enzymatic activity. The biotin is attached through a lysine residue, which in a number of bacterial, avian, and mammalian carboxylases, is found within the conserved sequence Ala-Met-Lys-Met. We have determined the partial nucleotide sequence of cDNA clones for human propionyl-CoA carboxylase and pyruvate carboxylase. The predicted amino acid sequence of both these proteins contains the conserved tetrapeptide 35 residues from the carboxy terminus. In addition, both proteins contain the tripeptide, Pro-Met-Pro, 26 residues toward the amino terminus from the biotin attachment site. The overall amino acid homology through this region is 43%. Similar findings have been made for the biotin-containing polypeptides of transcarboxylase of Propionibacterium shermanii and acetyl-CoA carboxylase of Escherichia coli (W. L. Maloy, B. U. Bowien, G. K. Zwolinski, K. G. Kumar, and H. G. Wood (1979) J. Biol. Chem. 254, 11615-11622). The implications of this sequence conservation with regard to the function and evolution of biotin-dependent carboxylases is discussed. We propose that the 60 amino acids surrounding the biotin site are bounded by a proline "hinge" and the carboxy terminus has remained conserved as a result of constraints imposed by biotinylation of the enzyme.
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PMID:Sequence homology around the biotin-binding site of human propionyl-CoA carboxylase and pyruvate carboxylase. 355 48

Definitive evidence is presented for the bifunctional nature of the biotin repressor protein which possesses both regulatory and enzymatic activities. The repressor protein can activate biotin in the presence of ATP to form biotinyl-5'-adenylate, the co-repressor which remains tightly bound to the repressor protein. This complex can either bind to the operator site and inhibit transcription or transfer the biotinyl moiety to a lysine residue of the apoenzyme of acetyl-CoA carboxylase. The two activities were coincident throughout a purification procedure which resulted in a 3500-fold increase in activity. Gel electrophoresis of the purified preparation, under native or denaturing conditions, showed three proteins with the activity corresponding to the major protein band of apparent Mr = 34,000. On gel exclusion chromatography, the activity was also associated with a protein of Mr varying fro 37,000-44,000, indicating the protein is monomeric. The occasional appearance of multiple bands with biological activity in the native gels suggests that the repressor protein can also exist in multimeric forms. On chromatofocusing, the repressor activity and the holoenzyme synthetase activity were coincidental, with the peak of activity at pH 7.2, the isoelectric point. Only a single protein band with Mr = 34,000 was observed on SDS gel electrophoresis of all fractions showing activity.
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PMID:Purification and properties of the biotin repressor. A bifunctional protein. 612 46

Acetyl-coenzyme A carboxylase (ACCase, EC 6.4.1.2) catalyzes the synthesis of malonyl-coenzyme A, which is utilized in the plastid for de novo fatty acid synthesis and outside the plastid for a variety of reactions, including the synthesis of very long chain fatty acids and flavonoids. Recent evidence for both multifunctional and multisubunit ACCase isozymes in dicot plants has been obtained. We describe here the isolation of a tobacco (Nicotiana tabacum L. cv bright yellow 2 [NT1]) cDNA clone (E3) that encodes a 58.4-kD protein that shares 80% sequence similarity and 65% identity with the Anabaena biotin carboxylase subunit of ACCase. Similar to other biotin carboxylase subunits of acetyl-CoA carboxylase, the E3-encoded protein contains a putative ATP-binding motif but lacks a biotin-binding site (methionine-lysine-methionine or methionine-lysine-leucine). The deduced protein sequence contains a putative transit peptide whose function was confirmed by its ability to direct in vitro chloroplast uptake. The subcellular localization of this biotin carboxylase has also been confirmed to be plastidial by western blot analysis of pea (Pisum sativum), alfalfa (Medicago sativa L.), and castor (Ricinus communis L.) plastid preparations. Northern blot analysis indicates that the plastid biotin carboxylase transcripts are expressed at severalfold higher levels in castor seeds than in leaves.
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PMID:Structural analysis, plastid localization, and expression of the biotin carboxylase subunit of acetyl-coenzyme A carboxylase from tobacco. 761 Jan 68

The gene that encodes acetyl-coenzyme A carboxylase (ACCase; EC 6.4.1.2) in the eukaryotic alga Cyclotella cryptica has been isolated and cloned, representing the first time that a full-length gene for this enzyme has been isolated from a photosynthetic organism. The gene contains a 447-base pair intron that is located near the putative translation initiation codon and a 73-base pair intron that is located slightly upstream from the region that encodes the biotin binding site of the enzyme. The gene encodes a polypeptide that is predicted to be composed of 2089 amino acids and to have a molecular mass of 230 kDa. The deduced amino acid sequence exhibits strong similarity to the sequences of animal and yeast ACCases in the biotin carboxylase and carboxyltransferase domains. There is less sequence similarity in the biotin carboxyl carrier protein domain, although the highly conserved Met-Lys-Met of the biotin binding site is present. The amino terminus of the predicted ACCase sequence has characteristics of a signal sequence, suggesting that the enzyme is imported into chloroplasts via the endoplasmic reticulum, as has been shown to be the case for certain nuclear-encoded proteins that are transported into the chloroplasts of the diatom Phaeodactylum tricornutum. Southern blot analyses suggest that a single copy of this gene is present in C. cryptica.
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PMID:Cloning and characterization of the gene that encodes acetyl-coenzyme A carboxylase in the alga Cyclotella cryptica. 810 14

The complete amino acid sequence of 3T3-L1 adipocyte pyruvate carboxylase (PC) [pyruvate:carbon-dioxide ligase (ADP-forming), EC 6.4.1.1] has been deduced from sequencing overlapping cDNA clones obtained from an adipocyte cDNA library constructed in the lambda Zap vector. The encoding mRNA for PC promoter contains 4067 nt, including a 3534-nt coding sequence and noncoding regions of 100 and 433 nt at the 5' and 3' ends, respectively. The biotinylated lysine of the encoded PC promoter (1178 amino acids with a calculated M(r) of apocarboxylase = 129,784) is located 35 residues from the COOH-terminal end and, as in most other biotin enzymes, is in the consensus sequence AMKM. The adipocyte PC is closely similar (53% identity) to the yeast enzyme and contains different segments that are homologous with regions from the biotin carboxylase component of Escherichia coli acetyl-CoA carboxylase, the keto acid-binding subunits of Propionibacterium shermanii oxaloacetate transcarboxylase and Klebsiella pneumoniae oxaloacetate decarboxylase, and to the biotin carboxyl-carrier protein of the bacterial biotin enzymes. In addition to the putative mitochondrial targeting signal, functional domains are readily identifiable in the sequence and are in the following order: biotin carboxylase-carboxyltransferase-biotin carboxyl-carrier protein, as proposed for yeast PC.
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PMID:Adipose pyruvate carboxylase: amino acid sequence and domain structure deduced from cDNA sequencing. 844 88

The Escherichia coli repressor of biotin biosynthesis (BirA) is a unique transcriptional repressor which catalyzes synthesis of its own corepressor and catalyzes attachment of a cofactor to an essential metabolic enzyme. BirA both catalyzes synthesis of biotinyl-5'-AMP from the substrates ATP and biotin and transfer of the biotin moiety from the adenylate to a lysine residue of a subunit of the acetyl-CoA carboxylase. BirA-bio-5'-AMP, moreover, binds sequence specifically to the biotin operator to repress transcription of the biotin biosynthetic genes. Using a combination of kinetic measurements of binding of the two ligands, biotin and bio-5'-AMP, to BirA as well as proteolytic digestion experiments, we have found evidence for at least three discrete conformational states of BirA. Results of stopped-flow fluorescence measurements of association of both ligands with BirA indicate that the process involves initial formation of a collision complex followed by a slow conformational change. The kinetics of the conformational change are distinct for the two ligands and are the basis for the difference in the thermodynamic stabilities of the two protein-ligand complexes. Different rates of proteolytic digestion of apoBirA and complexes of BirA with the two ligands were also observed. Results of the combined approaches indicate that apoBirA, and the BirA-bio-5'-AMP and BirA-biotin complexes are conformationally distinct.
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PMID:Evidence for distinct ligand-bound conformational states of the multifunctional Escherichia coli repressor of biotin biosynthesis. 852 35

Biotin biosynthesis and retention in Escherichia coli is regulated by the multifunctional protein, BirA. The protein acts as both the transcriptional repressor of the biotin biosynthetic operon and as a ligase for covalent attachment of biotin to a unique lysine residue of the acetyl-CoA carboxylase. Biotinyl-5'-AMP is the activated intermediate for the ligase reaction and the allosteric effector for DNA binding. We have purified and characterized apoBCCP and a truncated form containing the COOH-terminal 87 residues (apoBCCP87). Molecular masses of the proteins measured using matrix-assisted laser desorption ionization time-of-flight mass spectrometry conformed to the expected values. The assembly states of apoBCCP and apoBCCP87 were determined using sedimentation equilibrium ultracentrifugation. Nearly quantitative enzymatic transfer of biotin from BirA-biotinyl-5'-AMP to the apoBCCP forms was assessed using two methods, mass spectrometric analysis of acceptor proteins after incubation with BirA-bio-5'-AMP and a steady state fluorescence assay. The BirA catalyzed rates of transfer of biotin from bio-5'-AMP to apoBCCP and apoBCCP87 were measured by stopped-flow fluorescence. Kinetic parameters estimated from these measurements indicate that the intact and truncated forms of the acceptor protein are functionally identical.
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PMID:Purification and characterization of intact and truncated forms of the Escherichia coli biotin carboxyl carrier subunit of acetyl-CoA carboxylase. 863 88

Transcarboxylase (TC) is a biotin-containing enzyme catalyzing the transfer of a carboxyl group from methylmalonyl-CoA to pyruvate to form propionyl-CoA and oxalacetate. The transfer is achieved via carboxylated biotin bound to a 1.3S subunit within the multisubunit enzyme complex. The 1.3S subunit of TC is a 123 amino acid polypeptide, to which biotin is covalently attached at Lys 89. We have overexpressed 1.3S in Escherichia coli and characterized the biotinylated and apo-forms by 1D- and 2D-NMR spectroscopy. To search for protein-biotin interactions, which could modulate the reactivity of the biotin ring on the 1.3S subunit, we have compared the chemical shifts, relaxation parameters, and NH exchange rates of the ureido ring protons of free and 1.3S-bound biotin. These properties are similar for both forms of the biotin. Further, NOE experiments on 1.3S revealed no detectable cross peaks between biotin and the protein. Consistent with these findings, the 2D NMR data for holo- and apo-1.3S are essentially identical indicating little or no changes in conformation between the two forms of the protein. The conclusion that strong protein-biotin interactions do not exist in 1.3S contrasts with the findings for the biotin carboxylase carrier protein from E. coli acetyl-CoA carboxylase, which reveal significant biotin-protein contacts [Athappilly, F. K., and Hendrickson, W. A. (1995) Structure 3, 1407-1419]. Further, the biotin NH1' exchange rates determined for 1.3S show that in the region of optimal activity for TC (pH 5.5-6.5) acid-catalyzed exchange predominates. In this pH range the base-catalyzed rate is too small (< 1 s-1) to account for the turnover rate of the enzyme. Thus, the means by which the N1' atom is activated for nucleophilic attack of the carboxyl group in methylmalonyl-CoA does not appear to depend on interactions within the 1.3S subunit alone; rather activation must occur at the interfaces of the subunits in the holoenzyme.
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PMID:Absence of observable biotin-protein interactions in the 1.3S subunit of transcarboxylase: an NMR study. 939 86

The biotin carboxyl carrier protein (BCCP) is a subunit of acetyl-CoA carboxylase, a biotin-dependent enzyme that catalyzes the first committed step of fatty acid biosynthesis. In its functional cycle the biotin carboxyl carrier protein engages in heterologous protein-protein interactions with three distinct partners, depending on its state of posttranslational modification. Apo-BCCP interacts specifically with the biotin holoenzyme synthetase, BirA, which results in the posttranslational attachment of biotin to an essential lysine residue on BCCP. Holo-BCCP then interacts with the biotin carboxylase subunit, which leads to the addition of the carboxylate group of bicarbonate to biotin. Finally, the carboxybiotinylated form of BCCP interacts with transcarboxylase in the conversion of acetyl-CoA to malonyl-CoA. The determinants of protein-protein interaction specificity in this system are unknown. One hypothesis is that posttranslational modification of BCCP may result in conformational changes that regulate specific protein-protein interactions. To test this hypothesis, we have determined the NMR solution structure of the unbiotinylated form of an 87 residue C-terminal domain fragment of BCCP (apoBCCP87) from Escherichia coli acetyl-CoA carboxylase and compared this structure with the high-resolution structure of the biotinylated form that was recently solved by X-ray crystallographic techniques. Although the overall folding of the two proteins is highly similar, small structural differences are apparent for residues of the biotin-binding loop that may be important for mediating specific protein-protein interactions.
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PMID:Structure of the carboxy-terminal fragment of the apo-biotin carboxyl carrier subunit of Escherichia coli acetyl-CoA carboxylase. 939 36


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