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1.
A dipeptidyl peptidase (DPP) from goat brain has been purified. The purified enzyme showed a single band on sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE). It is a monomer with molecular weight of 69kDa with a pI of 4.5. The K(m) was estimated to be 39microM for Arg-Arg-4-methoxy-beta-naphthylamide (Arg-Arg-4mbetaNA). This enzyme is strongly inhibited by commonly used metallochelators and sulfhydryl reagents. Among various beta-naphthylamides examined, Arg-Arg-4mbetaNA was the most rapidly hydrolyzed substrate. Although, initially it was thought to be the DPP-III but on the basis of its molecular weight and inhibition studies, it was concluded that this enzyme is a functional homologue of DPP-III. 相似文献
2.
Monika Soudi Martina Paumann-Page Cedric Delporte Katharina F. Pirker Marzia Bellei Eva Edenhofer Gerhard Stadlmayr Gianantonio Battistuzzi Karim Zouaoui Boudjeltia Paul G. Furtmüller Pierre Van Antwerpen Christian Obinger 《The Journal of biological chemistry》2015,290(17):10876-10890
Human peroxidasin 1 (hsPxd01) is a multidomain heme peroxidase that uses bromide as a cofactor for the formation of sulfilimine cross-links. The latter confers critical structural reinforcement to collagen IV scaffolds. Here, hsPxd01 and various truncated variants lacking nonenzymatic domains were recombinantly expressed in HEK cell lines. The N-glycosylation site occupancy and disulfide pattern, the oligomeric structure, and unfolding pathway are reported. The homotrimeric iron protein contains a covalently bound ferric high spin heme per subunit with a standard reduction potential of the Fe(III)/Fe(II) couple of −233 ± 5 mV at pH 7.0. Despite sequence homology at the active site and biophysical properties similar to human peroxidases, the catalytic efficiency of bromide oxidation (kcat/KMapp) of full-length hsPxd01 is rather low but increased upon truncation. This is discussed with respect to its structure and proposed biosynthetic function in collagen IV cross-linking. 相似文献
3.
Catherine Zinglé Lionel Kuntz Denis Tritsch Catherine Grosdemange-Billiard Michel Rohmer 《Bioorganic & medicinal chemistry letters》2012,22(21):6563-6567
Fosmidomycin derivatives in which the hydroxamic acid group has been replaced by several bidentate chelators as potential hydroxamic alternatives were prepared and tested against the DXR from Escherichia coli. These results illustrate the predominant role of the hydroxamate functional group as the most effective metal binding group in DXR inhibitors. 相似文献
4.
一株洛菲不动杆菌对碳青霉烯类抗生素耐药机制的研究 总被引:2,自引:0,他引:2
目的研究洛菲不动杆菌对亚胺培南、美洛培南耐药的分子机制。方法K-B纸片琼脂扩散法检测洛菲不动杆菌B69对头孢他啶、头孢曲松、环丙沙星、阿米卡星的耐药性,琼脂对倍稀释法检测B69对亚胺培南、美洛培南的最低抑菌浓度;PCR扩增OXA、IMP、VIM型碳青霉烯酶基因,测序确定耐药基因型别;粗提酶水解亚胺培南纸片试验检测酶活性。结果洛菲不动杆菌B69具有多重耐药性;PCR扩增IMP基因阳性,经测序为IMP-8;粗提酶水解亚胺培南。结论产IMP-8型金属β-内酰胺酶是洛菲不动杆菌B69对碳青霉烯耐药的重要机制。 相似文献
5.
Brines LM Villar-Acevedo G Kitagawa T Swartz RD Lugo-Mas P Kaminsky W Benedict JB Kovacs JA 《Inorganica chimica acta》2008,361(4):1070-1078
Mechanistic pathways of metalloenzymes are controlled by the metal ion’s electronic and magnetic properties, which are tuned by the coordinated ligands. The functional advantage gained by incorporating cysteinates into the active site of non-heme iron enzymes such as superoxide reductase (SOR) is not entirely understood. Herein, we compare the structural and redox properties of a series of structurally-related thiolate, alkoxide, and amine-ligated Fe(II) complexes in order to determine how the thiolate influences properties critical to function. Thiolates are shown to reduce metal ion Lewis acidity relative to alkoxides and amines, and have a strong trans influence thereby helping to maintain an open coordination site. Comparison of the redox potentials of the structurally analogous compounds described herein shows that alkoxide ligands favor the higher-valent Fe3+ oxidation state, amine ligands favor the reduced Fe2+ oxidation state, and thiolates fall somewhere in between. These properties provide a functional advantage for substrate reducing enzymes in that they provide a site at the metal ion for substrate to bind, and a moderate potential that facilitates both substrate reduction and regeneration of the catalytically active reduced state. Redox potentials for structurally-related Co(II) complexes are shown to be cathodically-shifted relative to their Fe(II) analogues, making them ineffective reducing agents for substrates such as superoxide. 相似文献
6.
Cheng-Yang Huang Ching-Chen Hsu Mei-Chun Chen Yuh-Shyong Yang 《Journal of biological inorganic chemistry》2009,14(1):111-121
Bacterial hydantoinase possesses a binuclear metal center in which two metal ions are bridged by a posttranslationally carboxylated
lysine. How the carboxylated lysine and metal binding affect the activity of hydantoinase was investigated. A significant
amount of iron was always found in Agrobacterium radiobacter hydantoinase purified from unsupplemented cobalt-, manganese-, or zinc-amended Escherichia coli cell cultures. A titration curve for the reactivation of apohydantoinase with cobalt indicates that the first metal was preferentially
bound but did not give any enzyme activity until the second metal was also attached to the hydantoinase. The pH profiles of
the metal-reconstituted hydantoinase were dependent on the specific metal ion bound to the active site, indicating a direct
involvement of metal in catalysis. Mutation of the metal binding site residues, H57A, H59A, K148A, H181A, H237A, and D313A,
completely abolished hydantoinase activity but preserved about half of the metal content, except for K148A, which lost both
metals in its active site. However, the activity of K148A could be chemically rescued by short-chain carboxylic acids in the
presence of cobalt, indicating that the carboxylated lysine was needed to coordinate the binuclear ion within the active site
of hydantoinase. The mutant D313E enzyme was also active but resulted in a pH profile different from that of wild-type hydantoinase.
A mechanism for hydantoinase involving metal, carboxylated K148, and D313 was proposed.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
7.
Griffith DM Szocs B Keogh T Suponitsky KY Farkas E Buglyó P Marmion CJ 《Journal of inorganic biochemistry》2011,105(6):763-769
Reaction of the potent hydroxamate-based histone deacetylase (HDAC) inhibitor, suberoylanilide hydroxamic acid (SAHA), with hydrated metal salts of Fe(III), Cu(II), Ni(II) and Zn(II) yielded a tris-hydroxamato complex in the case of Fe(III) and bis-hydroxamato complexes in the case of Cu(II), Ni(II) and Zn(II) both in the solid state and in solution. Reaction of the secondary hydroxamic acid, N-Me-SAHA, also yielded a tris-hydroxamato complex in the case of Fe(III) and bis-hydroxamato complexes in the case of Cu(II), Ni(II) and Zn(II) in solution. These metal complexes have the hydroxamato moiety coordinated in an O,O’-bidentate fashion. Stability constants of the metal complexes formed with SAHA and N-Me-SAHA in a DMSO/H2O 70/30%(v/v) mixture are described. A novel crystal structure of SAHA together with a novel synthesis for N-Me-SAHA are also reported. 相似文献
8.
Mikael Gudmundsson Seonah Kim Miao Wu Takuya Ishida Majid Hadadd Momeni Gustav Vaaje-Kolstad Daniel Lundberg Antoine Royant Jerry St?hlberg Vincent G. H. Eijsink Gregg T. Beckham Mats Sandgren 《The Journal of biological chemistry》2014,289(27):18782-18792
Lytic polysaccharide monooxygenases (LPMOs) are a recently discovered class of enzymes that employ a copper-mediated, oxidative mechanism to cleave glycosidic bonds. The LPMO catalytic mechanism likely requires that molecular oxygen first binds to Cu(I), but the oxidation state in many reported LPMO structures is ambiguous, and the changes in the LPMO active site required to accommodate both oxidation states of copper have not been fully elucidated. Here, a diffraction data collection strategy minimizing the deposited x-ray dose was used to solve the crystal structure of a chitin-specific LPMO from Enterococcus faecalis (EfaCBM33A) in the Cu(II)-bound form. Subsequently, the crystalline protein was photoreduced in the x-ray beam, which revealed structural changes associated with the conversion from the initial Cu(II)-oxidized form with two coordinated water molecules, which adopts a trigonal bipyramidal geometry, to a reduced Cu(I) form in a T-shaped geometry with no coordinated water molecules. A comprehensive survey of Cu(II) and Cu(I) structures in the Cambridge Structural Database unambiguously shows that the geometries observed in the least and most reduced structures reflect binding of Cu(II) and Cu(I), respectively. Quantum mechanical calculations of the oxidized and reduced active sites reveal little change in the electronic structure of the active site measured by the active site partial charges. Together with a previous theoretical investigation of a fungal LPMO, this suggests significant functional plasticity in LPMO active sites. Overall, this study provides molecular snapshots along the reduction process to activate the LPMO catalytic machinery and provides a general method for solving LPMO structures in both copper oxidation states. 相似文献
9.
The crude extracellular cellulase from Clostridium thermocellum was oxidatively inactivated by air and inhibited by sulfhydryl reagents. Activity-loss was prevented and reversed by the addition of a high concentration (10 mM) dithiothreitol (DDT) at zero time and up to 24 h respectively. In the presence of a low concentration (0.4 mM) of DTT, the enzyme was more rapidly inactivated than in air alone. This was probably due to autoxidation of the low DTT concentration to H2O2 as shown by its prevention by a high DTT concentration, exclusion of air, or catalase; and by the oxidative inactivation of the enzyme by H2O2. The inactivation by H2O2 could be prevented by a high concentration of DTT but not by air exclusion. EDTA protected the enzyme from inactivation in air by a low concentration of DTT or by H2O2. This is presumably due to the role of metals in oxidation of SH groups. Furthermore, copper (5 M) also caused inactivation and this was prevented by the presence of a high DTT concentration. Even in the protective atmosphere of a high DTT concentration, cellulase was inactivated by certain apolar chelating agents such as o-phenanthroline and -1-dipyridyl, such inactivation being preventable by the prior incubation of the chelator with a mixture of Fe2+ and Fe3+. These data suggest that the clostridial cellulase, unlike the enzyme from aerobic fungi, contains essential sulfhydryl groups and is stimulated by iron. The endo--glucanase component of the cellulase complex was not susceptible to oxidative inactivation.Abbreviations DTT
dithiothreitol
- CMC
carboxymethylcellulose
- DTNB
5,5-dithiobis-(2-nitrobenzoic acid)
- NEM
N-ethylmaleimide
-
p-CMB
p-chloromercuribenzoic acid 相似文献
10.
Uri Wormser Michael Chorev Chaim Gilon Ralph Laufer Zeev Y. Friedman Zvi Selinger 《Biochimica et Biophysica Acta (BBA)/General Subjects》1984,798(1):28-36
Inactivation of substance P and its C-terminal hexapeptide analog [p-Glu6]substance P6–11 was studied in rat parotid and hypothalamic slices. It was found that in the parotid slice system the decay of substance P induced K+ release occurs concurrently with a decrease in the biologically active concentration of the peptide in the medium. The inactivation was further studied using [p-Glu6]substance P6–11 as substrate in the parotid and in the hypothalamic slice systems. In both tissue preparations the hexapeptide is degraded to small peptide fragments by metalloendopeptidase. Separation of the peptide fragments by high performance liquid chromatography and determination of their amino acid composition showed that in the hypothalamic slice system the major cleavage of the hexapeptide analog occurs between Phe8-Gly9 with minor cleavage sites between Phe7-Phe8 and Gly9-Leu10. In the rat parotid slice system the major cleavage occurs between Gly9-Leu10 with a minor cleavage site between Phe7-Phe8. The degradation of the hexapeptide analog in the hypothalamic system was inhibited 77% and 67% by treatment with 1 mM p-chloromercuriphenylsulfonate and p-chloromercuribenzoate, respectively, whereas in the parotid system these reagents inhibited the degradation of the hexapeptide only by 15% and 8%. These results may indicate that different proteases in the parotid and hypothalamus are involved in degradation of substance P. Kinetic studies, including the use of various inhibitors as well as competition by the peptide hormones somatostatin, LHRH, TRH and Leu-enkephalin-NH2, revealed that in both tissues the hexapeptide analog is a preferred substrate for degradation by protease of considerable specificity towards the C-terminal sequence of substance P. It is suggested that this metalloendopeptidase may be important in the termination of the substance P response. 相似文献