Escherichia coli genes whose products are involved in selenium metabolism.
about
Cloning and functional characterization of human selenophosphate synthetase, an essential component of selenoprotein synthesisCatalytic properties of an Escherichia coli formate dehydrogenase mutant in which sulfur replaces seleniumSynthesis of 5-methylaminomethyl-2-selenouridine in tRNAs: 31P NMR studies show the labile selenium donor synthesized by the selD gene product contains selenium bonded to phosphorusSECIS-SBP2 interactions dictate selenocysteine incorporation efficiency and selenoprotein hierarchyThe molecular biology of selenocysteineSynthesis and decoding of selenocysteine and human healthSolution NMR Structure of Selenium-binding Protein from Methanococcus vannieliiStructural Insights into the Catalytic Mechanism of Escherichia coli Selenophosphate SynthetaseDiffering views of the role of selenium in thioredoxin reductaseSelective selC-independent selenocysteine incorporation into formate dehydrogenasesIn vitro synthesis of selenocysteinyl-tRNA(UCA) from seryl-tRNA(UCA): involvement and characterization of the selD gene productIdentification of a protein component of a mammalian tRNA(Sec) complex implicated in the decoding of UGA as selenocysteine.First Insights into the Genome Sequence of the Halophilic Archaeon Halalkalicoccus paucihalophilus (DSM 24557)Coordination of FocA and pyruvate formate-lyase synthesis in Escherichia coli demonstrates preferential translocation of formate over other mixed-acid fermentation products.The respiratory molybdo-selenoprotein formate dehydrogenases of Escherichia coli have hydrogen: benzyl viologen oxidoreductase activityNitrate respiration in relation to facultative metabolism in enterobacteria.Crystal structures of the human elongation factor eEFSec suggest a non-canonical mechanism for selenocysteine incorporation.Isotope exchange studies on the Escherichia coli selenophosphate synthetase mechanismUsing chemical approaches to study selenoproteins-focus on thioredoxin reductasesFeatures of the formate dehydrogenase mRNA necessary for decoding of the UGA codon as selenocysteine.In vitro incorporation of selenium into tRNAs of Salmonella typhimurium.Characterization of potential selenium-binding proteins in the selenophosphate synthetase systemIdentification and expression of the Escherichia coli fdhD and fdhE genes, which are involved in the formation of respiratory formate dehydrogenase.A tRNA-dependent cysteine biosynthesis enzyme recognizes the selenocysteine-specific tRNA in Escherichia coliFrom one amino acid to another: tRNA-dependent amino acid biosynthesisThe iscS gene is essential for the biosynthesis of 2-selenouridine in tRNA and the selenocysteine-containing formate dehydrogenase HSelenocysteine incorporation in eukaryotes: insights into mechanism and efficiency from sequence, structure, and spacing proximity studies of the type 1 deiodinase SECIS element.A selenium-dependent xanthine dehydrogenase triggers biofilm proliferation in Enterococcus faecalis through oxidant production.Catalytic properties of selenophosphate synthetases: comparison of the selenocysteine-containing enzyme from Haemophilus influenzae with the corresponding cysteine-containing enzyme from Escherichia coli.Effects of monovalent cations and divalent metal ions on Escherichia coli selenophosphate synthetaseThe selenocysteine-inserting opal suppressor serine tRNA from E. coli is highly unusual in structure and modification.Fetal mouse selenophosphate synthetase 2 (SPS2): characterization of the cysteine mutant form overproduced in a baculovirus-insect cell systemStaphylococcus aureus has clustered tRNA genesClostridium sticklandii glycine reductase selenoprotein A gene: cloning, sequencing, and expression in Escherichia coli.Genetic evidence that genes fdhD and fdhE do not control synthesis of formate dehydrogenase-N in Escherichia coli K-12Selenocysteine in thiol/disulfide-like exchange reactions.Chemopreventive effect of selenium and Chinese medicinal herbs on N-nitrosobis(2-oxopropyl)amine-induced hepatocellular carcinoma in Syrian hamsters.Amino acid modifications on tRNA.Errors and alternatives in reading the universal genetic code.Linkage map of Escherichia coli K-12, edition 8
P2860
Q24337157-6365945A-6986-447D-9560-8FDD1418CAABQ24561818-244CECAB-D25E-4854-AE4C-E8F99E60A75CQ24562165-6D698561-F39A-471E-942E-441161DC70B8Q24595047-88B00813-FEF5-4D60-84AE-639E1FBCA13EQ27000485-C80CBE2E-C74C-4511-B0AE-7F8B8D78EFEEQ27022391-C8DA9706-0137-4B23-A9F0-9D228475C051Q27651303-C05957D9-7200-47A7-A5AE-75DC86084CB3Q27675556-5999E9F2-A7F8-4B9A-A47E-E651CE1FE95FQ27693988-D75A3795-3806-4601-978B-BD8992C58043Q28487069-1022CCC7-7900-4EA8-B10A-83E0955E61E8Q28493198-500F0453-4C2C-4E46-A50E-000179871AE3Q28569529-454BE9BF-5D4B-4558-A940-0F9860192538Q28829552-ABC2370F-C588-4B28-9E3C-D2359CF8972CQ30317900-190EC298-BC9A-413E-BF8E-327610426131Q30318343-B6391E03-937E-4402-A45F-C5B5FB0ED7E7Q30449796-26E2357D-ACF7-449C-9861-8F022FFBE6E4Q30821031-10B72B4F-4E79-419F-BE52-D7D2DC585661Q32108768-1C600A88-BF43-4E2F-8CEE-9FCE709F9C0AQ33637257-B1DBB853-FA18-4E3E-866D-7D331CDCD685Q33637893-983FDF04-0859-4239-B853-A0674A9C3C03Q33750774-E7E34E5D-6402-4A6B-8FFF-8143941D5523Q33763227-8E94F326-C6A6-4912-962B-EE7DAF123C9BQ33942616-6DA9C4C2-7F5B-42F2-AB63-6CF8B9BE0462Q33946042-CDCC2890-F535-4774-860B-E89A2EDB2DD2Q34009792-A7384CE1-46C5-431E-BC14-E44EF4AA4ADFQ34067251-945649CB-077C-4A0A-BB0E-38A811838752Q34361023-C2141AC1-ABC8-4441-BF06-9C43630DFE56Q34740690-967AC5A2-79EB-43B3-BC39-7D0CFE2E18A3Q34789448-91D4FA7D-8909-4306-B373-9B1A0866B70CQ35629438-09D79681-4C73-407C-A911-32666C24BCC5Q35945624-695E4538-2926-41B4-94B8-81586CA59117Q35951414-50AE2410-F01D-4272-8989-EC8D3979D7C8Q36104092-4DBBD0A7-000E-4484-909E-BA9DA323965FQ36133311-2B7BA62B-71ED-4E82-836B-D8D61F2960C3Q36149482-C390CF2A-5B2B-4559-96F7-E8AF707530CEQ36731700-1210183F-CD95-4EFE-81AA-1758D8E14E91Q36737425-EB1D0A84-75F3-4799-A8AB-96AA639C61C3Q36922593-9C7D8ADF-8E70-42C3-A984-ADED26737337Q37055639-ED057AF3-F7D6-4B7A-A650-E3501AD1CD52Q37056213-60FCC0EC-DEB8-46AF-B496-32767C44B433
P2860
Escherichia coli genes whose products are involved in selenium metabolism.
description
1988 nî lūn-bûn
@nan
1988年の論文
@ja
1988年学术文章
@wuu
1988年学术文章
@zh-cn
1988年学术文章
@zh-hans
1988年学术文章
@zh-my
1988年学术文章
@zh-sg
1988年學術文章
@yue
1988年學術文章
@zh
1988年學術文章
@zh-hant
name
Escherichia coli genes whose products are involved in selenium metabolism.
@ast
Escherichia coli genes whose products are involved in selenium metabolism.
@en
type
label
Escherichia coli genes whose products are involved in selenium metabolism.
@ast
Escherichia coli genes whose products are involved in selenium metabolism.
@en
prefLabel
Escherichia coli genes whose products are involved in selenium metabolism.
@ast
Escherichia coli genes whose products are involved in selenium metabolism.
@en
P2093
P2860
P1476
Escherichia coli genes whose products are involved in selenium metabolism.
@en
P2093
Forchhammer K
Leinfelder W
Mandrand-Berthelot MA
P2860
P304
P356
10.1128/JB.170.2.540-546.1988
P407
P577
1988-02-01T00:00:00Z