Unexpected Diversity of pepA Genes Encoding Leucine Aminopeptidases in Sediments from a Freshwater Lake
Author:
Affiliation:
1. National Institute for Environmental Studies (NIES), Center for Regional Environmental Research
2. National Institute for Environmental Studies (NIES), Center for Environmental Biology and Ecosystem Studies
Publisher
Japanese Society of Microbial Ecology
Subject
Plant Science,Soil Science,General Medicine,Ecology, Evolution, Behavior and Systematics
Link
https://www.jstage.jst.go.jp/article/jsme2/31/1/31_ME15117/_pdf
Reference40 articles.
1. 1. Beckwith, CR, MJ Edwards, M Lawes, L Shi, JN Butt, DJ Richardson, and TA Clarke. 2015. Characterization of MtoD from Sideroxydans lithotrophicus: a cytochrome c electron shuttle used in lithoautotrophic growth. Front Microbiol. 6:332.
2. 2. Burley, SK, PR David, RM Sweet, A Taylor, and WN Lipscomb. 1992. Structure determination and refinement of bovine lens leucine aminopeptidase and its complex with bestatin. J Mol Biol. 224:113-140.
3. 3. Chi, MC, HB Huang, JS Liu, WC Wang, WC Liang, and LL Lin. 2006. Residues threonine 346 and leucine 352 are critical for the proper function of Bacillus kaustophilus leucine aminopeptidase. FEMS Microbiol Lett. 260:156-161.
4. 4. Chróst, RJ. 1991. Environmental control of the synthesis and activity of aquatic microbial ectoenzymes, p.29-59. In RJ Chróst (ed.), Microbial Enzymes in Aquatic Environments. Springer Verlag, New York.
5. 5. Chróst, RJ. 1992. Significance of bacterial ectoenzymes in aquatic environments. Hydrobiol. 243/244:61-70.
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