Protonation structures of Cys-sulfinic and Cys-sulfenic acids in the photosensitive nitrile hydratase revealed by Fourier transform infrared spectroscopy.
about
Catalytic Mechanism of Nitrile Hydratase Proposed by Time-resolved X-ray Crystallography Using a Novel Substrate, tert-ButylisonitrileTime-Resolved Crystallography of the Reaction Intermediate of Nitrile Hydratase: Revealing a Role for the Cysteinesulfenic Acid Ligand as a Catalytic NucleophileSelf-subunit swapping chaperone needed for the maturation of multimeric metalloenzyme nitrile hydratase by a subunit exchange mechanism also carries out the oxidation of the metal ligand cysteine residues and insertion of cobalt.Self-subunit swapping occurs in another gene type of cobalt nitrile hydrataseEstablishment of Bioprocess for Synthesis of Nicotinamide by Recombinant Escherichia coli Expressing High-Molecular-Mass Nitrile Hydratase.Strategy for successful expression of the Pseudomonas putida nitrile hydratase activator P14K in Escherichia coli.Cysteine-mediated redox signaling: chemistry, biology, and tools for discoveryHow does single oxygen atom addition affect the properties of an Fe-nitrile hydratase analogue? The compensatory role of the unmodified thiolate.Sulfur K-edge XAS and DFT calculations on nitrile hydratase: geometric and electronic structure of the non-heme iron active siteSuccessful expression of the Bordetella petrii nitrile hydratase activator P14K and the unnecessary role of Ser115Spectroscopic and Computational Studies of Nitrile Hydratase: Insights into Geometric and Electronic Structure and the Mechanism of Amide Synthesis.Zn2+-dependent redox switch in the intracellular T1-T1 interface of a Kv channelConstruction of a subunit-fusion nitrile hydratase and discovery of an innovative metal ion transfer pattern.Use of metallopeptide based mimics demonstrates that the metalloprotein nitrile hydratase requires two oxidized cysteinates for catalytic activityDiscovery of posttranslational maturation by self-subunit swapping.Valence tautomerism in synthetic models of cytochrome P450.Regulation of peroxiredoxins by nitric oxide in immunostimulated macrophages.Comparative study of the oxidation behavior of sulfur-containing amino acids and glutathione by electrochemistry-mass spectrometry in the presence and absence of cisplatin.Overexpression and characterization of two types of nitrile hydratases from Rhodococcus rhodochrous J1.Molecular dynamics simulations of the photoactive protein nitrile hydratase.Metal-Assisted Oxo Atom Addition to an Fe(III) Thiolate.Properties of square-pyramidal alkyl-thiolate Fe(III) complexes, including an analogue of the unmodified form of nitrile hydratase.The Stability Enhancement of Nitrile Hydratase from Bordetella petrii by Swapping the C-terminal Domain of β subunit.Activity Enhancement Based on the Chemical Equilibrium of Multiple-Subunit Nitrile Hydratase from Bordetella petrii.
P2860
Q27652628-837E5C3E-80A3-47BF-B2A6-DCDD3F515C01Q27702089-7C043ECF-4237-447B-B819-C7F0598F7D1FQ33426734-39792AF4-79BC-44CC-BEC2-14575F1B38E9Q34505988-326ED4BC-B9E0-43CD-A649-E92A8432D7D6Q34550466-9AC25A2D-8DE0-46BB-900A-4B1C91A0E2ACQ34754324-DF460D81-DDDB-448F-BA10-C5CB2943163BQ35001796-73D697EF-9A99-4A53-BE78-AE9433BFF371Q35785498-BB88C143-EC52-4E70-805D-13F3B4E733AEQ35798432-82291CF8-D6E1-4029-8D6A-4EF8AD43C61FQ35929368-9D4FA7E9-10E9-4EBF-A85A-96C9292B1C9BQ36200895-78556261-8CCA-4DFF-9A5C-034DC22C1F5CQ36397589-7F2522B8-8BC5-4D76-8EBE-52C161ED80DBQ36453634-975A1C89-64EF-4F50-B7CE-896E8066780BQ36603367-1132756E-0E1E-4887-B7EE-839AD415038BQ36937045-001F6714-2635-45F2-B121-FA19FBC3DCA3Q37021690-096250DF-5AED-44E9-AB31-8E469F7D924EQ40070965-A682D3CA-8B66-4945-959E-2FA8485C0DC3Q40208975-57E74E26-73C8-4246-A37C-E8450AEA7E10Q41056937-1B5A59BC-CCF9-46C4-92DF-E739582F0817Q41895031-BD0EB79F-0AC3-4140-AB7F-7CDEF9320F5DQ41987865-13959DEC-6B53-4FD5-AA9C-A850F42B1440Q42087900-42767A6E-CBC9-428A-93A5-8EA6ACB5F248Q51599823-B1DA5ED6-EBA7-4CCD-A1DA-5A96353114E2Q53123370-08F95090-A699-40D4-BD97-954CDEB35779
P2860
Protonation structures of Cys-sulfinic and Cys-sulfenic acids in the photosensitive nitrile hydratase revealed by Fourier transform infrared spectroscopy.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Protonation structures of Cys- ...... ansform infrared spectroscopy.
@en
Protonation structures of Cys- ...... ansform infrared spectroscopy.
@nl
type
label
Protonation structures of Cys- ...... ansform infrared spectroscopy.
@en
Protonation structures of Cys- ...... ansform infrared spectroscopy.
@nl
prefLabel
Protonation structures of Cys- ...... ansform infrared spectroscopy.
@en
Protonation structures of Cys- ...... ansform infrared spectroscopy.
@nl
P2093
P356
P1433
P1476
Protonation structures of Cys- ...... ransform infrared spectroscopy
@en
P2093
Ken-ichi Takei
Masaki Nojiri
Nobuo Kamiya
Takumi Noguchi
P304
11642-11650
P356
10.1021/BI035260I
P407
P50
P577
2003-10-01T00:00:00Z