Biosynthesis of pteridines. Reaction mechanism of GTP cyclohydrolase I
about
Characterization of MOCS1A, an oxygen-sensitive iron-sulfur protein involved in human molybdenum cofactor biosynthesisGTP cyclohydrolase I utilizes metal-free GTP as its substrateFrom cyclohydrolase to oxidoreductase: discovery of nitrile reductase activity in a common foldOn the origin of biochemistry at an alkaline hydrothermal ventProtein thiol modifications visualized in vivoStructure of an Amide Bond Forming F420:γγ-glutamyl Ligase from Archaeoglobus Fulgidus - A Member of a New Family of Non-ribosomal Peptide SynthasesZinc-Independent Folate Biosynthesis: Genetic, Biochemical, and Structural Investigations Reveal New Metal Dependence for GTP Cyclohydrolase IBPseudouridine Monophosphate Glycosidase: A New Glycosidase MechanismThe mechanism of potent GTP cyclohydrolase I inhibition by 2,4-diamino-6-hydroxypyrimidine: requirement of the GTP cyclohydrolase I feedback regulatory proteinThe drive to life on wet and icy worldsBiochemical and functional characterization of Plasmodium falciparum GTP cyclohydrolase IA priori contact preferences in molecular recognition.Binding of 5'-GTP to the C-terminal FeS cluster of the radical S-adenosylmethionine enzyme MoaA provides insights into its mechanism.The N-terminal peptide of mammalian GTP cyclohydrolase I is an autoinhibitory control element and contributes to binding the allosteric regulatory protein GFRP.Pterin chemistry and its relationship to the molybdenum cofactor.Deciphering deazapurine biosynthesis: pathway for pyrrolopyrimidine nucleosides toyocamycin and sangivamycin.Peroxynitrite-dependent zinc release and inactivation of guanosine 5'-triphosphate cyclohydrolase 1 instigate its ubiquitination in diabetes.Utility of the Biosynthetic Folate Pathway for Targets in Antimicrobial Discovery.Mechanism and catalytic strategy of the prokaryotic-specific GTP cyclohydrolase-IB.Evolution of new function in the GTP cyclohydrolase II proteins of Streptomyces coelicolor.GTP cyclohydrolase I: purification, characterization, and effects of inhibition on nitric oxide synthase in nocardia species.One-carbon metabolic pathway rewiring in Escherichia coli reveals an evolutionary advantage of 10-formyltetrahydrofolate synthetase (Fhs) in survival under hypoxia.GTP cyclohydrolase II structure and mechanism.Structures and reaction mechanisms of GTP cyclohydrolases.Discovery of a new prokaryotic type I GTP cyclohydrolase family.
P2860
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P2860
Biosynthesis of pteridines. Reaction mechanism of GTP cyclohydrolase I
description
2003 nî lūn-bûn
@nan
2003 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Biosynthesis of pteridines. Reaction mechanism of GTP cyclohydrolase I
@ast
Biosynthesis of pteridines. Reaction mechanism of GTP cyclohydrolase I
@en
Biosynthesis of pteridines. Reaction mechanism of GTP cyclohydrolase I
@nl
type
label
Biosynthesis of pteridines. Reaction mechanism of GTP cyclohydrolase I
@ast
Biosynthesis of pteridines. Reaction mechanism of GTP cyclohydrolase I
@en
Biosynthesis of pteridines. Reaction mechanism of GTP cyclohydrolase I
@nl
prefLabel
Biosynthesis of pteridines. Reaction mechanism of GTP cyclohydrolase I
@ast
Biosynthesis of pteridines. Reaction mechanism of GTP cyclohydrolase I
@en
Biosynthesis of pteridines. Reaction mechanism of GTP cyclohydrolase I
@nl
P2093
P1476
Biosynthesis of pteridines. Reaction mechanism of GTP cyclohydrolase I
@en
P2093
Andreas Bracher
Cornelia Hösl
Gerd Bader
Günter Auerbach
Herbert Nar
Johannes Kaiser
Jorge Rebelo
Markus Fischer
Nicholas Schramek
P304
P356
10.1016/S0022-2836(02)01303-7
P407
P577
2003-02-14T00:00:00Z