Literature DB >> 8251472

Monoselenophosphate: synthesis, characterization, and identity with the prokaryotic biological selenium donor, compound SePX.

R S Glass1, W P Singh, W Jung, Z Veres, T D Scholz, T C Stadtman.   

Abstract

A labile, selenium donor compound required for synthesis of selenium-dependent enzymes and seleno-tRNAs is formed from ATP and selenide by the SELD enzyme. This compound, tentatively identified as a selenophosphate [Veres, Z., Tsai, L., Scholz, T. D., Politino, M., Balaban, R. S., & Stadtman, T. C. (1992) Proc. Natl. Acad. Sci. U.S.A. 89, 2975-2979], is indistinguishable from chemically prepared monoselenophosphate by 31P NMR spectroscopy and ion pairing HPLC. Furthermore, addition of chemically prepared monoselenophosphate caused a dose-dependent decrease in the amount of 75Se incorporated into tRNAs from 75SePX generated in situ by SELD enzyme. A procedure is described for the chemical synthesis of monoselenophosphate in which the readily prepared (MeO)3PSe is converted in quantitative yield to (TMSO)3PSe followed by complete cleavage of the latter to monoselenophosphate in oxygen-free aqueous buffer. The chemical properties of chemically synthesized monoselenophosphate are described.

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Year:  1993        PMID: 8251472     DOI: 10.1021/bi00210a001

Source DB:  PubMed          Journal:  Biochemistry        ISSN: 0006-2960            Impact factor:   3.162


  36 in total

Review 1.  How selenium has altered our understanding of the genetic code.

Authors:  Dolph L Hatfield; Vadim N Gladyshev
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2.  The iscS gene is essential for the biosynthesis of 2-selenouridine in tRNA and the selenocysteine-containing formate dehydrogenase H.

Authors:  Hisaaki Mihara; Shin-ichiro Kato; Gerard M Lacourciere; Thressa C Stadtman; Robert A J D Kennedy; Tatsuo Kurihara; Umechiyo Tokumoto; Yasuhiro Takahashi; Nobuyoshi Esaki
Journal:  Proc Natl Acad Sci U S A       Date:  2002-05-07       Impact factor: 11.205

3.  Genome copy numbers and gene conversion in methanogenic archaea.

Authors:  Catherina Hildenbrand; Tilmann Stock; Christian Lange; Michael Rother; Jörg Soppa
Journal:  J Bacteriol       Date:  2010-11-19       Impact factor: 3.490

4.  Human selenophosphate synthetase 1 has five splice variants with unique interactions, subcellular localizations and expression patterns.

Authors:  Jin Young Kim; Kwang Hee Lee; Myoung Sup Shim; Hyein Shin; Xue-Ming Xu; Bradley A Carlson; Dolph L Hatfield; Byeong Jae Lee
Journal:  Biochem Biophys Res Commun       Date:  2010-05-22       Impact factor: 3.575

Review 5.  Selenoproteins: molecular pathways and physiological roles.

Authors:  Vyacheslav M Labunskyy; Dolph L Hatfield; Vadim N Gladyshev
Journal:  Physiol Rev       Date:  2014-07       Impact factor: 37.312

6.  Fetal mouse selenophosphate synthetase 2 (SPS2): characterization of the cysteine mutant form overproduced in a baculovirus-insect cell system.

Authors:  I Y Kim; M J Guimarães; A Zlotnik; J F Bazan; T C Stadtman
Journal:  Proc Natl Acad Sci U S A       Date:  1997-01-21       Impact factor: 11.205

7.  Isotope exchange studies on the Escherichia coli selenophosphate synthetase mechanism.

Authors:  H Walker; J A Ferretti; T C Stadtman
Journal:  Proc Natl Acad Sci U S A       Date:  1998-03-03       Impact factor: 11.205

8.  Active bovine selenophosphate synthetase 2, not having selenocysteine.

Authors:  Kenji Furumiya; Kazuo Kanaya; Kazutaka Tanabe; Yuta Tanaka; Takaharu Mizutani
Journal:  Mol Biol Rep       Date:  2007-08-22       Impact factor: 2.316

9.  Selenophosphate synthetase: detection in extracts of rat tissues by immunoblot assay and partial purification of the enzyme from the archaean Methanococcus vannielii.

Authors:  I Y Kim; T C Stadtman
Journal:  Proc Natl Acad Sci U S A       Date:  1995-08-15       Impact factor: 11.205

Review 10.  Selenocysteine, pyrrolysine, and the unique energy metabolism of methanogenic archaea.

Authors:  Michael Rother; Joseph A Krzycki
Journal:  Archaea       Date:  2010-08-17       Impact factor: 3.273
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