Andrea Gräntzdörffer scite author profile

Andrea Gräntzdörffer

2Publications

83Citation Statements Received

45Citation Statements Given

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Martin Luther University Halle-Wittenberg

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Identification of d-Proline Reductase fromClostridium sticklandiias a Selenoenzyme and Indications for a Catalytically Active Pyruvoyl Group Derived from a Cysteine Residue by Cleavage of a Proprotein

Kabisch

Gräntzdörffer

Schierhorn

et al. 1999

Journal of Biological Chemistry

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Highly active D-proline reductase was obtained from Clostridium sticklandii by a modified purification scheme. The cytoplasmic enzyme had a molecular mass of about 870 kDa and was composed of three subunits with molecular masses of 23, 26, and 45 kDa. The 23-kDa subunit contained a carbonyl group at its N terminus, which could either be labeled with fluorescein thiosemicarbazide or removed by o-phenylenediamine; thus, Nterminal sequencing became feasible for this subunit. L-[14 C]proline was covalently bound to the 23-kDa subunit if proline racemase and NaBH 4 were added. Selenocysteine was detected in the 26-kDa subunit, which correlated with an observed selenium content of 10.6 g-atoms in D-proline reductase. No other non-proteinaceous cofactor was identified in the enzyme. A 4.8-kilobase pair (kb) EcoRI fragment was isolated and sequenced containing the two genes prdA and prdB. prdA coding for a 68-kDa protein was most likely translated as a proprotein that was posttranslationally cleaved at a threonine-cysteine site to give the 45-kDa subunit and most probably a pyruvoyl-containing 23-kDa subunit. The gene prdB encoded the 26-kDa subunit and contained an in frame UGA codon for selenocysteine insertion. prdA and prdB were transcribed together on a transcript of 4.5 kb; prdB was additionally transcribed as indicated by a 0.8-kb mRNA species.

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Spannend wie ein Krimi: Bioanalytik. Von F. Lottspeich. Spektrum, Heidelberg, 1998. S. geb., 148,‐ DM. ISBN 3‐827‐40041‐4

Gräntzdörffer¹

1999

Nachr. Chem. Tech. Lab.

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