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Bioinformatic and biochemical characterization of DCXR and DHRS2/4 from Caenorhabditis elegans
Authors:Kisiela Michael  El-Hawari Yasser  Martin Hans-Jörg  Maser Edmund
Institution:Institute of Toxicology and Pharmacology for Natural Scientists, University Medical School Schleswig-Holstein, Kiel, Germany. kisiela@toxi.uni-kiel.de
Abstract:Several reductases belonging to the large enzyme superfamily of the short-chain dehydrogenases/reductases (SDR) are involved in the reductive metabolism of carbonyl containing xenobiotics. In order to characterize the human enzymes dicarbonyl/l-xylulose reductase (DCXR), and dehydrogenase/reductase members 2 and 4 (DHRS2, DHRS4) in terms of metabolism of xenobiotics, orthologues from the model organism Caenorhabditis elegans (C. elegans) were identified by using hidden Markov models that were developed in the present study. Accordingly, we describe the characterization of proteins from C. elegans as orthologous to the human enzymes DCXR and DHRS2/4 using a combined approach of bioinformatic and biochemical methods. With the hidden Markov model based system we identified the C. elegans proteins SDR20C18, SDR25C21 and SDR25C22 as being homologous to the human enzymes DCXR, and DHRS2 or DHRS4, respectively. After cloning and overexpression of these three C. elegans genes in Escherichia coli we could purify SDR20C18 and SDR25C22 as soluble proteins by Ni-affinity chromatography, whereas recombinant SDR25C21 was only found in inclusion bodies. Both SDR20C18 (UniProtAcc: Q21929) and SDR25C22 (UniProtAcc: Q93790) were tested with a variety of xenobotic carbonyl compounds as substrates. A comparison of the catalytic activities of SDR20C18 and SDR25C22 with well-known substrates of the human forms revealed that SDR20C18 is the DCXR-orthologue enzyme to the human enzyme and that SDR25C22 might be a DHRS2/4 homologue. Due to their high sequence identity, it was so far not possible to distinguish between SDR25C22 and the human DHRS2/4 proteins by means of sequence analysis alone. However, the study of homologue genes in the model organism C. elegans can provide valuable information on the putative physiological role of the corresponding human form.
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