Chul-Soon Lee scite author profile

Chul-Soon Lee

2Publications

19Citation Statements Received

61Citation Statements Given

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Gyeongsang National University

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Association between Alcoholism and the Genetic Polymorphisms of the GABAA Receptor Genes on Chromosome 5q33-34 in Korean Population

Park

Lee

et al. 2006

J Korean Med Sci

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Family, twin, and adoption studies have demonstrated that genes play an important role in the development of alcoholism. We investigated the association between alcoholism and the genetic polymorphisms of the GABAA receptor genes on chromosome 5q33-34 in Korean population. The genotype of the GABAA receptor gene polymorphisms were determined by performing polymerase chain reaction genotyping for 172 normal controls and 162 male alcoholics who are hospitalized in alcoholism treatment institute. We found a significant association between the genetic polymorphisms of the GABAA α1 and GABAA α6 receptor gene and alcoholism. The GG genotype of the GABAA α1 receptor gene was associated with the onset age of alcoholism and alcohol withdrawal symptoms, and a high score on the Korean version of the ADS. However, there was no association between the genetic polymorphisms of the GABAA β2 and γ2 receptor gene and alcoholisms. Our finding suggest that genetic polymorphisms of the GABAA α1 and GABAA α6 receptor gene may be associated with the development of alcoholism and that the GG genotype of the GABAA α1 receptor gene play an important role in the development of the early onset and the severe type of alcoholism.

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Molecular and Biochemical Characteristics of ��-Propeller Phytase from Marine Pseudomonas sp. BS10-3 and Its Potential Application for Animal Feed Additives

Nam¹,

Kim²,

Ko³

et al. 2014

Journal of Microbiology and Biotechnology

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Phytate is an antinutritional factor that impacts the bioavailability of essential minerals such as Ca(2+), Mg(2+), Mn(2+), Zn(2+), and Fe(2+) by forming insoluble mineral-phytate salts. These insoluble mineral-phytate salts are hydrolyzed rarely by monogastric animals, because they lack the hydrolyzing phytases and thus excrete the majority of them. The β-propeller phytases (BPPs) hydrolyze these insoluble mineral-phytate salts efficiently. In this study, we cloned a novel BPP gene from a marine Pseudomonas sp. This Pseudomonas BPP gene (PsBPP) had low sequence identity with other known phytases and contained an extra internal repeat domain (residues 24-279) and a typical BPP domain (residues 280-634) at the C-terminus. Structurebased sequence alignment suggested that the N-terminal repeat domain did not possess the active-site residues, whereas the C-terminal BPP domain contained multiple calcium-binding sites, which provide a favorable electrostatic environment for substrate binding and catalytic activity. Thus, we overexpressed the BPP domain from Pseudomonas sp. to potentially hydrolyze insoluble mineral-phytate salts. Purified recombinant PsBPP required Ca(2+) or Fe(2+) for phytase activity, indicating that PsBPP hydrolyzes insoluble Fe(2+)-phytate or Ca2+-phytate salts. The optimal temperature and pH for the hydrolysis of Ca(2+)-phytate by PsBPP were 50°C and 6.0, respectively. Biochemical and kinetic studies clearly showed that PsBPP efficiently hydrolyzed Ca(2+)-phytate salts and yielded myo-inositol 2,4,6-trisphosphate and three phosphate groups as final products. Finally, we showed that PsBPP was highly effective for hydrolyzing rice bran with high phytate content. Taken together, our results suggest that PsBPP has great potential in the animal feed industry for reducing phytates.

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Chul-Soon Lee

Association between Alcoholism and the Genetic Polymorphisms of the GABAA Receptor Genes on Chromosome 5q33-34 in Korean Population

Molecular and Biochemical Characteristics of ��-Propeller Phytase from Marine Pseudomonas sp. BS10-3 and Its Potential Application for Animal Feed Additives

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