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Ko, Kyong-Cheol,Choi, Mi Hee,Park, Sang Hyun John Wiley Sons, Ltd. 2009 Journal of labelled compounds & radiopharmaceutica Vol.52 No.4
<P>The prototype of the cdc2 protein kinase in mammalian cells regulates its entry into mitosis by phosphorylating a group of key proteins in the major cell cycle transitions. In this study, using the mep45 gene encoding the 45 kDa major envelope protein (Mep45) of Selenomonas ruminantium, a rumen bacteria, a Mep45-fused substrate (PKTPKKAKKL-Mep45, MFS-cdc2) was cloned to detect the activity of cdc2 protein kinase. We report here on a strategy for the detection of a phosphorylation of a substrate catalyzed by cdc2 protein kinase by using a radioisotope detection technique. It is possible to constantly obtain a reasonable quantity of MFS-cdc2 for the cdc2 protein kinase assay and its cost can be as low as a synthesized peptide. Results of the study indicate that the Mep45-fused protein can be used effectively as a substrate for detecting the activity of cdc2 protein kinase and it can be used in developing a protein biochip for a high-throughput screening and also for studying protein–protein interactions. Copyright © 2009 John Wiley & Sons, Ltd.</P> <B>Graphic Abstract</B> <P>Gene cloning and utility phophorylation assay of a protein-fused substrate for a highly sensitive detection of cdc2 protein kinase using a radioisotope detection technique for the development of a protein biochip Kyong-Cheol Ko, Mi Hee Choi, Sang Hyun Park<SUP>*</SUP>Using the mep45 gene encoding the 45 kDa major envelope protein (Mep45) of Selenomonas ruminantium, a rumen bacteria, a Mep45-fused substrate (PKTPKKAKKL-Mep45, MFS-cdc2) was cloned to detect the activity of cdc2 protein kinase. We report here on a strategy for the detection of a phosphorylation of a substrate catalyzed by cdc2 protein kinase by using a radioisotope detection technique. Copyright © 2009 John Wiley & Sons, Ltd. <img src='wiley_img/03624803-2009-52-4-JLCR1579-gra001.gif' alt='wiley_img/03624803-2009-52-4-JLCR1579-gra001'> </P>
Ko, Kyong-Cheol,Rim, Soon-Ok,Han, Yunjon,Shin, Bong Seok,Kim, Geun-Joong,Choi, Jong Hyun,Song, Jae Jun Published by Stockton Press on behalf of the Socie 2012 Journal of industrial microbiology & biotechnology Vol.39 No.5
<P>A novel lipolytic enzyme was isolated from a metagenomic library after demonstration of lipolytic activity on an LB agar plate containing 1% (w/v) tributyrin. A novel esterase gene (estIM1), encoding a lipolytic enzyme (EstIM1), was cloned using a shotgun method from a pFosEstIM1 clone of the metagenomic library, and the enzyme was characterized. The estIM1 gene had an open reading frame (ORF) of 936 base pairs and encoded a protein of 311 amino acids with a molecular mass 34??kDa and a pI value of 4.32. The deduced amino acid sequence was 62% identical to that of an esterase from an uncultured bacterium (ABQ11271). The amino acid sequence indicated that EstIM1 was a member of the family IV of lipolytic enzymes, all of which contain a GDSAG motif shared with similar enzymes of lactic acid microorganisms. EstIM1 was active over a temperature range of 1-50°C, at alkaline pH. The activation energy for hydrolysis of p-nitrophenyl propionate was 1.04??kcal/mol, within a temperature range of 1-40°C. The activity of EstIM1 was about 60% of maximal even at 1°C, suggesting that EstIM1 is efficiently cold-adapted. Further characterization of this cold-adapted enzyme indicated that the esterase may be very valuable in industrial applications.</P>