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Iron-sulfur cluster biogenesis in mammalian cells: New insights into the molecular mechanisms of cluster deliveryMolybdenum metabolism in plants and crosstalk to ironSulfite Oxidase Activity of Cytochrome c: Role of Hydrogen PeroxideThe mononuclear molybdenum enzymes.Thiosulfoxide (sulfane) sulfur: new chemistry and new regulatory roles in biologyCopper-deficiency in Brassica napus induces copper remobilization, molybdenum accumulation and modification of the expression of chloroplastic proteins.Globins Scavenge Sulfur Trioxide Anion Radical.bis-Molybdopterin guanine dinucleotide is required for persistence of Mycobacterium tuberculosis in guinea pigs.Isolation of Salmonella enterica serovar Kentucky strain ST 198 and its H2S-negative variant from a patient: implications for diagnosis.Cleavage of the moaX-encoded fused molybdopterin synthase from Mycobacterium tuberculosis is necessary for activity.Trace metal imaging in diagnostic of hepatic metal disease.Trace element status and zinc homeostasis differ in breast and formula-fed piglets.The biosynthesis of the molybdenum cofactors.Sulfite-oxidizing enzymes.Too much is bad--an appraisal of phytotoxicity of elevated plant-beneficial heavy metal ions.The mammalian molybdenum enzymes of mARC.Acetylene hydratase: a non-redox enzyme with tungsten and iron-sulfur centers at the active site.Structure and function of mammalian aldehyde oxidases.Sulfur Modifications of the Wobble U34 in tRNAs and their Intracellular Localization in Eukaryotic CellsDrought-Enhanced Xylem Sap Sulfate Closes Stomata by Affecting ALMT12 and Guard Cell ABA Synthesis.EXAFS reveals two Mo environments in the nitrogenase iron-molybdenum cofactor biosynthetic protein NifQ.Pulsed electron paramagnetic resonance spectroscopy of (33)S-labeled molybdenum cofactor in catalytically active bioengineered sulfite oxidase.Insights into the posttranslational assembly of the Mo-, S- and Cu-containing cluster in the active site of CO dehydrogenase of Oligotropha carboxidovorans.Physiological and genomic insights into the lifestyle of arsenite-oxidizing Herminiimonas arsenitoxidans.The Molybdenum Cofactor Biosynthesis Network: In vivo Protein-Protein Interactions of an Actin Associated Multi-Protein Complex.Aminopyrazine Pathway to the Moco Metabolite Dephospho Form A.The structure of vanadium nitrogenase reveals an unusual bridging ligand.Crystal structure of the hydroxylaminopurine resistance protein, YiiM, and its putative molybdenum cofactor-binding catalytic site.pH-Dependent Bioavailability, Speciation, and Phytotoxicity of Tungsten (W) in Soil Affect Growth and Molybdoenzyme Activity of Nodulated Soybeans.Changes in metabolic pathways of Desulfovibrio alaskensis G20 cells induced by molybdate excess.Molybdenum cofactor deficiency: Identification of a patient with homozygote mutation in the MOCS3 gene.Prioritization of Candidate Genes in QTL Regions for Physiological and Biochemical Traits Underlying Drought Response in Barley (Hordeum vulgare L.).The Emergence of the First CellsStructure-Function Relationships of Glycine and GABA Receptors and Their Interplay With the Scaffolding Protein GephyrinThe Biosynthesis of the Molybdenum Cofactor in Escherichia coli and Its Connection to FeS Cluster Assembly and the Thiolation of tRNA
P2860
Q26850111-CDB201E7-5753-4281-B6A7-044DD97457C1Q26862829-2F92DF92-009A-44D7-9B31-4D7210A8D2CCQ28397283-82F2B471-A6FF-4DF3-AAFF-F2259774CF33Q33840734-765D498B-EDB7-4EBB-AF36-9CA25D16ACAFQ34223578-E17DE0E1-7F02-410E-A90A-856785A26DD0Q34343890-1A5C29CC-AD1A-4AC9-99C2-059F513A3D4AQ34494609-60437EC3-299D-4C8D-B65E-CAECB4F92C89Q34955543-3ED4BDFC-670A-404F-8501-1A187DB9A685Q35036123-A205EDD3-1763-44A2-8DD2-60942DCC22B4Q35078528-5D55A0F7-C7FA-4B53-AE8C-96775A21AEEBQ35560178-47FAD76F-6A64-43E6-84F7-1F2FEDBBD521Q37070932-527F9EB2-0366-470F-9D06-97748AF9A85CQ38224877-8455188B-1C8F-4316-AC57-6AA1A08263FBQ38254800-FF73776D-B84A-4E35-A15C-5B16CD041669Q38269408-CDE87358-440A-4A05-8C0A-07FCB873D733Q38271482-FF8A2AE1-C013-4296-82D2-25195D21D935Q38704521-ADFBD0AA-2760-4DBD-84E4-60D6E3A1C08CQ38751930-3AA5A498-3A6B-4596-B19B-43164E7A4430Q39144347-BBB5666F-63C7-4148-A870-C664D034D700Q39207575-C1D66302-4B08-4CE9-880D-828F4A2F07CBQ41440680-772F9D18-F2D8-4EE5-9AF7-477E3F2DB5BFQ41821552-1260A9B3-FF1F-4BBE-A1C2-5464DEB345E4Q41948337-0F3793CB-93A2-4800-B42A-953A350F0B15Q46269147-3414F9A9-EA26-4AB7-A542-79531130DBCCQ47142736-66A1EA10-BED2-4C1E-A462-8AA3690013B7Q48157728-2B473EB3-E05B-4B22-9E73-CAD19E80CF64Q49318400-0F532F74-48F6-4531-AAA5-A77C304D26C0Q49831000-90ACDBC1-CD63-4466-88EA-38174A677046Q52558942-64EF6B6D-B864-449C-B698-22B34BF556D2Q52994457-7BE56F4A-20C1-4477-BD62-DBA1C366C95AQ53742775-AB97EF76-51F8-4F35-8A4D-F3EB46C0D2DAQ55317338-4E157824-5285-4BEF-B090-14C6CCFD6908Q57176838-AF6B6226-5192-4DDC-97A1-5BCE55DD833EQ58746360-94283505-3176-4EFB-A857-F7D992843993Q59042631-F3BFF44E-56D5-438C-84A3-FA6640889319
P2860
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
The molybdenum cofactor
@en
type
label
The molybdenum cofactor
@en
prefLabel
The molybdenum cofactor
@en
P2860
P356
P1476
The molybdenum cofactor
@en
P2093
Ralf R Mendel
P2860
P304
13165-13172
P356
10.1074/JBC.R113.455311
P407
P577
2013-03-28T00:00:00Z