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123 related items for PubMed ID: 30817134

  • 1. Analysis of the Cellular Roles of MOCS3 Identifies a MOCS3-Independent Localization of NFS1 at the Tips of the Centrosome.
    Neukranz Y, Kotter A, Beilschmidt L, Marelja Z, Helm M, Gräf R, Leimkühler S.
    Biochemistry; 2019 Apr 02; 58(13):1786-1798. PubMed ID: 30817134
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  • 2. A novel role for human Nfs1 in the cytoplasm: Nfs1 acts as a sulfur donor for MOCS3, a protein involved in molybdenum cofactor biosynthesis.
    Marelja Z, Stöcklein W, Nimtz M, Leimkühler S.
    J Biol Chem; 2008 Sep 12; 283(37):25178-25185. PubMed ID: 18650437
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  • 9. The identification of a novel protein involved in molybdenum cofactor biosynthesis in Escherichia coli.
    Dahl JU, Urban A, Bolte A, Sriyabhaya P, Donahue JL, Nimtz M, Larson TJ, Leimkühler S.
    J Biol Chem; 2011 Oct 14; 286(41):35801-35812. PubMed ID: 21856748
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  • 10. Characterization and interaction studies of two isoforms of the dual localized 3-mercaptopyruvate sulfurtransferase TUM1 from humans.
    Fräsdorf B, Radon C, Leimkühler S.
    J Biol Chem; 2014 Dec 12; 289(50):34543-56. PubMed ID: 25336638
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  • 11. Identification of a Rhodobacter capsulatus L-cysteine desulfurase that sulfurates the molybdenum cofactor when bound to XdhC and before its insertion into xanthine dehydrogenase.
    Neumann M, Stöcklein W, Walburger A, Magalon A, Leimkühler S.
    Biochemistry; 2007 Aug 21; 46(33):9586-95. PubMed ID: 17649978
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  • 12. The Role of SufS Is Restricted to Fe-S Cluster Biosynthesis in Escherichia coli.
    Bühning M, Valleriani A, Leimkühler S.
    Biochemistry; 2017 Apr 11; 56(14):1987-2000. PubMed ID: 28323419
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  • 13. Evidence for the physiological role of a rhodanese-like protein for the biosynthesis of the molybdenum cofactor in humans.
    Matthies A, Rajagopalan KV, Mendel RR, Leimkühler S.
    Proc Natl Acad Sci U S A; 2004 Apr 20; 101(16):5946-51. PubMed ID: 15073332
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  • 14. TusA (YhhP) and IscS are required for molybdenum cofactor-dependent base-analog detoxification.
    Kozmin SG, Stepchenkova EI, Schaaper RM.
    Microbiologyopen; 2013 Oct 20; 2(5):743-55. PubMed ID: 23894086
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  • 15. Shared Sulfur Mobilization Routes for tRNA Thiolation and Molybdenum Cofactor Biosynthesis in Prokaryotes and Eukaryotes.
    Leimkühler S, Bühning M, Beilschmidt L.
    Biomolecules; 2017 Jan 14; 7(1):. PubMed ID: 28098827
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  • 16. Cell biology of molybdenum in plants and humans.
    Mendel RR, Kruse T.
    Biochim Biophys Acta; 2012 Sep 14; 1823(9):1568-79. PubMed ID: 22370186
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  • 17. Heavy metal ions inhibit molybdoenzyme activity by binding to the dithiolene moiety of molybdopterin in Escherichia coli.
    Neumann M, Leimkühler S.
    FEBS J; 2008 Nov 14; 275(22):5678-89. PubMed ID: 18959753
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  • 18. Molybdenum cofactor transfer from bacteria to nematode mediates sulfite detoxification.
    Warnhoff K, Ruvkun G.
    Nat Chem Biol; 2019 May 14; 15(5):480-488. PubMed ID: 30911177
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  • 19. Case Report: Compound Heterozygous Variants in MOCS3 Identified in a Chinese Infant With Molybdenum Cofactor Deficiency.
    Tian Q, Cao Y, Shu L, Chen Y, Peng Y, Wang Y, Chen Y, Wang H, Mao X.
    Front Genet; 2021 May 14; 12():651878. PubMed ID: 33897766
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  • 20. Cofactor-dependent maturation of mammalian sulfite oxidase links two mitochondrial import pathways.
    Klein JM, Schwarz G.
    J Cell Sci; 2012 Oct 15; 125(Pt 20):4876-85. PubMed ID: 22854042
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