Assignment of enzymatic function to specific protein regions of cobalamin-dependent methionine synthase from Escherichia coli.
about
Human methionine synthase reductase is a molecular chaperone for human methionine synthaseMetabolic derangement of methionine and folate metabolism in mice deficient in methionine synthase reductaseHyperhomocysteinemia due to methionine synthase deficiency, cblG: structure of the MTR gene, genotype diversity, and recognition of a common mutation, P1173LCrystal structure and solution characterization of the activation domain of human methionine synthaseInsights into the reactivation of cobalamin-dependent methionine synthaseStructure of Candida albicans methionine synthase determined by employing surface residue mutagenesisCatalysis of methyl group transfers involving tetrahydrofolate and B(12)Genetic disorders of vitamin B12 metabolism: eight complementation groups – eight genesMapping the interactions between flavodoxin and its physiological partners flavodoxin reductase and cobalamin-dependent methionine synthaseThe reductive acetyl coenzyme A pathway: sequence and heterologous expression of active methyltetrahydrofolate:corrinoid/iron-sulfur protein methyltransferase from Clostridium thermoaceticumProbing the role of the histidine 759 ligand in cobalamin-dependent methionine synthase.Cobalamin- and corrinoid-dependent enzymesFactors modulating conformational equilibria in large modular proteins: a case study with cobalamin-dependent methionine synthaseA riboswitch regulates expression of the coenzyme B12-independent methionine synthase in Mycobacterium tuberculosis: implications for differential methionine synthase function in strains H37Rv and CDC1551.Crystallographic studies on B12 binding proteins in eukaryotes and prokaryotes.Ligand trans influence governs conformation in cobalamin-dependent methionine synthaseCobalamin-dependent and cobamide-dependent methyltransferasesImpeded electron transfer from a pathogenic FMN domain mutant of methionine synthase reductase and its responsiveness to flavin supplementationS-methylmethionine metabolism in Escherichia coli.Biphasic modulation of NOS expression, protein and nitrite products by hydroxocobalamin underlies its protective effect in endotoxemic shock: downstream regulation of COX-2, IL-1β, TNF-α, IL-6, and HMGB1 expression.Reactivation of methionine synthase from Thermotoga maritima (TM0268) requires the downstream gene product TM0269.In Silico Analysis of Sequence-Structure-Function Relationship of the Escherichia coli Methionine Synthase.Co+-H interaction inspired alternate coordination geometries of biologically important cob(I)alamin: possible structural and mechanistic consequences for methyltransferases.Localization of OccR-activated and TraR-activated promoters that express two ABC-type permeases and the traR gene of Ti plasmid pTiR10.Mutualistic interactions between vitamin B12 -dependent algae and heterotrophic bacteria exhibit regulation.In silico analysis of sequence-structure-function relationship of the Escherichia coli methionine synthase.ELDOR Spectroscopy Reveals that Energy Landscapes in Human Methionine Synthase Reductase are Extensively Remodelled Following Ligand and Partner Protein Binding
P2860
Q24293401-9DFD259D-97A7-4377-9051-F2590BEE3CA9Q24300489-FC4BAA3D-90A2-4D7E-B002-25A8FE278F75Q24632653-1F7A7A8A-4DAA-434F-A755-41B7E4B51AD3Q27643762-E4B4C27E-78AB-4E1A-8C4D-22701070FE77Q27657891-95C794E8-FE60-45BD-A09E-175A48E37F1DQ27670484-9492C8DD-30C2-41CC-8950-B034619E6550Q28294584-6F65242C-A80A-4001-AA8C-58200292F844Q29541652-E08D4FB9-7C20-4E4F-B065-65C8ED696DC9Q33932758-0E54E895-9B7D-41FA-831F-085E649786B6Q34323543-DEBC317A-74CB-435D-AF2A-F76F0BCB9D6AQ35040860-716B5848-195B-4B09-B8E7-75A3862DDCD2Q35059889-3626CC2E-BAFF-4B4D-865F-82B08AB50EE6Q35167474-3959A394-E8F3-4219-B153-5DF31E719B5FQ35759805-3D93DA47-4B99-400A-B897-C57C382CD37EQ36839868-08D59D4B-D52A-4E6E-A902-6EBC541C7F98Q36901555-D5BD8411-B424-4FA8-8A01-E630DC448632Q37091268-D7960131-C99B-4390-99F2-697E43532FB1Q37104912-885D3204-AA94-4B60-BDFE-56563BB100C5Q39493904-FAFCA7BA-AF8C-4A42-A526-CBCF71C32C0AQ41884090-D8B40587-C35C-4E34-A79A-C04727BFD14EQ42958345-51CC393D-3B26-42A1-8E83-04D77C4EFBABQ46693147-29154ECD-9EC4-41E4-BA5A-E48F290A7C4BQ47292361-85C7E980-9A7F-4D5B-94F0-FB0D6842CB18Q48063493-E6ADABD6-9A96-448A-B668-358FEE94F0BDQ50499828-4985ED8D-2EAE-47CD-A46E-DFC76A78FF3CQ54273946-01AA94CF-00A0-4B78-9E08-4E9D7A601824Q57979299-D9CC1B5D-A78A-42A3-8B45-8801473126C0
P2860
Assignment of enzymatic function to specific protein regions of cobalamin-dependent methionine synthase from Escherichia coli.
description
1993 nî lūn-bûn
@nan
1993年の論文
@ja
1993年学术文章
@wuu
1993年学术文章
@zh-cn
1993年学术文章
@zh-hans
1993年学术文章
@zh-my
1993年学术文章
@zh-sg
1993年學術文章
@yue
1993年學術文章
@zh
1993年學術文章
@zh-hant
name
Assignment of enzymatic functi ...... ynthase from Escherichia coli.
@en
Assignment of enzymatic functi ...... ynthase from Escherichia coli.
@nl
type
label
Assignment of enzymatic functi ...... ynthase from Escherichia coli.
@en
Assignment of enzymatic functi ...... ynthase from Escherichia coli.
@nl
prefLabel
Assignment of enzymatic functi ...... ynthase from Escherichia coli.
@en
Assignment of enzymatic functi ...... ynthase from Escherichia coli.
@nl
P2093
P356
P1433
P1476
Assignment of enzymatic functi ...... synthase from Escherichia coli
@en
P2093
J T Drummond
R G Matthews
P304
P356
10.1021/BI00087A005
P407
P577
1993-09-01T00:00:00Z