期刊
JOURNAL OF BIOCHEMISTRY
卷 147, 期 4, 页码 591-599出版社
OXFORD UNIV PRESS
DOI: 10.1093/jb/mvp206
关键词
deep-sea bacteria; dihydrofolate reductase; enzyme activity; high-pressure adaptation; molecular evolution
资金
- Ministry of Education, Science, Sports and Culture of Japan [16657031]
- Grants-in-Aid for Scientific Research [16657031] Funding Source: KAKEN
Enzymes from organisms living in deep-sea are thought to have characteristic pressure-adaptation mechanisms in structure and function. To better understand these mechanisms in dihydrofolate reductase (DHFR), an essential enzyme in living cells, we cloned, overexpressed and purified four new DHFRs from the deep-sea bacteria Shewanella violacea (svDHFR), Photobacterium profundum (ppDHFR), Moritella yayanosii (myDHFR) and Moritella japonica (mjDHFR), and compared their structure and function with those of Escherichia coli DHFR (ecDHFR). These deep-sea DHFRs showed 33-56% primary structure identity to ecDHFR while far-ultraviolet circular dichroism and fluorescence spectra suggested that their secondary and tertiary structures were not largely different. The optimal temperature and pH for deep-sea DHFRs activity were lower than those of ecDHFR and different from each other. Deep-sea DHFRs kinetic parameters K-m and k(cat) were larger than those of ecDHFR, resulting in 1.5-2.8-fold increase of k(cat)/K-m except for mjDHFR which had a 28-fold decrease. The enzyme activity of ppDHFR and mjDHFR (moderate piezophilic bacteria) as well as ecDHFR decreased as pressure increased, while svDHFR and myDHFR (piezophilic bacteria) showed a significant tolerance to pressure. These results suggest that DHFRs from deep-sea bacteria possess specific enzymatic properties adapted to their life under high pressure.
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