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Summary Aspartate transcarbamoylase (ATCase, EC 2.1.3.2) is the first unique enzyme common to de novo pyrimidine biosynthesis and is involved in a variety of structural patterns in different organisms. InEscherichia coli, ATCase is a functionally independent, oligomeric enzyme; in hamster, it is part of a trifunctional protein complex, designated CAD, that includes the preceding and subsequent enzymes of the biosynthetic pathway (carbamoyl phosphate synthetase and dihydroorotase). The complete complementary DNA (cDNA) nucleotide sequence of the ATCase-encoding portion of the hamster CAD gene is reported here. A comparison of the deduced amino acid sequences of the hamster andE. coli catalytic peptides revealed an overall 44% amino acid similarity, substantial conservation of predicted secondary structure, and complete conservation of all the amino acids implicated in the active site of theE. coli enzyme. These observations led to the construction of a functional hybrid ATCase formed by intragenic fusion based on the known tertiary structure of the bacterial enzyme. In this fusion, the amino terminal half (the “polar domain”) of the fusion protein was provided by a hamster ATCase cDNA subclone, and the carboxyl terminal portion (the “equatorial domain”) was derived from a clonedpyrBI operon ofE. coli K-12. The recombinant plasmid bearing the hybrid ATCase was shown to satisfy growth requirements of transformedE. coli pyrB cells. The functionality of thisE. coli-hamster hybrid enzyme confirms conservation of essential structure-function relationships between evolutionarily distant and structurally divergent ATCases.  相似文献   
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Endo-β-N-acetylglucosaminidase H from Streptomyces plicatus can be useful in determining both the molecular weight of the protein moiety of glycoproteins and their inherent number of oligosaccharide chains. In the case of carboxypeptidase Y the molecular mass of the carbohydrate free protein was confirmed as 51,000 daltons. The native enzyme was shown to contain 4 oligosaccharide chains each averaging about 14 mannose residues. On treatment of mung bean nuclease I with the endoglycosidase, the molecular mass decreased from 39,000 to 31,000 daltons. The peptides produced on reduction of this enzyme with thiol were 18,700 and 12,500 daltons, indicating that carbohydrate had been present on both. Penicillium nuclease P1 was decreased in size from 40,000 to 30,000 daltons by the endoglycosidase. Although most of the carbohydrate was removed from each of the native enzymes by the endoglycosidase, denaturation of the glycoproteins was necessary to effect complete removal. Enzyme activitywas not affected by carbohydrate depletion of these glycoproteins, a result consistent with similar studies on other oligosaccharide-containing enzymes.  相似文献   
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The 102 amino acid residues of CNBr 4, the largest of 5 cyanogen bromide peptides from the Lactobacillus casei thymidylate synthetase were completely sequenced by means of limited tryptic, tryptic, chymotryptic, and staphylococcal protease peptides. CNBr 4 contains both of the cysteines in an enzyme subunit, with the 5-fluorodeoxyuridylate-reactive cysteine at residue 198 and the other at residue 244.  相似文献   
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The reaction of one of the four cysteinyl residues of thymidylate synthetase from methotrexate-resistant Lactobacillus casei with a variety of sulfhydryl reagents results in complete inhibition of the enzyme. Kinetic studies indicate that the rates of reactivity of the reagents tested are N-ethylmaleimide > iodoacetamide > N-(iodoacetylaminoethyl)-S-naphthylamine-1-sulfonic acid > iodoacetic acid. The enzyme is also inactivated by 5-Hg-deoxyuridylate, a compound which reacts stoichiometrically with a single cysteine. Unlike the other reagents, the inhibition produced by this compound can be completely reversed by added thiols. The same cysteine appears to react with all of the sulfhydryl reagents, as shown by competition experiments and by protection against inactivation by deoxyuridylate. Even at a 100-fold excess of the alkylating agents, only one of the four cysteines in the native enzyme was reactive, attesting to the uniqueness of this residue. Carboxypeptidase A inactivation of the enzyme does not affect either the binding of deoxyuridylate to the enzyme or the reactivity of N-ethylmaleimide with the “catalytic” cysteine. Under denaturing conditions, all four cysteinyl residues react with N-ethylmaleimide or iodoacetate, as shown by identifying the reaction products by amino acid analysis. The covalent ternary complex [(+)5,10-methylenetetrahydrofolate-5-fluorodeoxyuridylate-thymidylate synthetase] (molar ratio = 2:2:1) revealed only two cysteinyl residues capable of reacting with N-ethylmaleimide or iodoacetate upon denaturation. From these data, it appears that one cysteine is involved in the binding of deoxyuridylate and that two of the enzyme's four cysteines are responsible for binding 5-fluorodeoxyuridylate in the ternary complex.  相似文献   
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The structure of Escherichia coli thymidylate synthase (TS) complexed with the substrate dUMP and an analogue of the cofactor methylenetetrahydrofolate was solved by multiple isomorphous replacement and refined at 1.97-A resolution to a residual of 18% for all data (16% for data greater than 2 sigma) for a highly constrained structure. All residues in the structure are clearly resolved and give a very high confidence in total correctness of the structure. The ternary complex directly suggests how methylation of dUMP takes place. C-6 of dUMP is covalently bound to gamma S of Cys-198(146) during catalysis, and the reactants are surrounded by specific hydrogen bonds and hydrophobic interactions from conserved residues. Comparison with the independently solved structure of unliganded TS reveals a large conformation change in the enzyme, which closes down to sequester the reactants and several highly ordered water molecules within a cavernous active center, away from bulk solvent. A second binding site for the quinazoline ring of the cofactor analogue was discovered by withholding addition of reducing agent during crystal storage. The chemical change in the protein is slight, and from difference density maps modification of sulfhydryls is not directly responsible for blockade of the primary site. The site, only partially overlapping with the primary site, is also surrounded by conserved residues and thus may play a functional role. The ligand-induced conformational change is not a domain shift but involves the segmental accommodation of several helices, beta-strands, and loops that move as units against the beta-sheet interface between monomers.  相似文献   
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Next‐generation sequencing has greatly expanded the utility and value of museum collections by revealing specimens as genomic resources. As the field of museum genomics grows, so does the need for extraction methods that maximize DNA yields. For avian museum specimens, the established method of extracting DNA from toe pads works well for most specimens. However, for some specimens, especially those of birds that are very small or very large, toe pads can be a poor source of DNA. In this study, we apply two DNA extraction methods (phenol–chloroform and silica column) to three different sources of DNA (toe pad, skin punch and bone) from 10 historical avian museum specimens. We show that a modified phenol–chloroform protocol yielded significantly more DNA than a silica column protocol (e.g., Qiagen DNeasy Blood & Tissue Kit) across all tissue types. However, extractions using the silica column protocol contained longer fragments on average than those using the phenol–chloroform protocol, probably as a result of loss of small fragments through the silica column. While toe pads yielded more DNA than skin punches and bone fragments, skin punches proved to be a reliable alternative source of DNA and might be especially appealing when toe pad extractions are impractical. Overall, we found that historical bird museum specimens contain substantial amounts of DNA for genomic studies under most extraction scenarios, but that a phenol–chloroform protocol consistently provides the high quantities of DNA required for most current genomic protocols.  相似文献   
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