Hyperthermophilic Carbamate Kinase Stability and Anabolic In Vitro Activity at Alkaline pH

天冬氨酸氨甲酰转移酶 超嗜热菌 生物化学 嗜热菌 化学 氨基甲酸酯 激酶 变构调节 古细菌 基因
作者
James Hennessy,Melissa J. Latter,Somayeh Fazelinejad,Amy Philbrook,Daniel M. Bartkus,Hye-Kyung Kim,Hideki Onagi,John G. Oakeshott,Colin Scott,Apostolos Alissandratos,Christopher J. Easton
出处
期刊:Applied and Environmental Microbiology [American Society for Microbiology]
卷期号:84 (3) 被引量:12
标识
DOI:10.1128/aem.02250-17
摘要

ABSTRACT Carbamate kinases catalyze the conversion of carbamate to carbamoyl phosphate, which is readily transformed into other compounds. Carbamate forms spontaneously from ammonia and carbon dioxide in aqueous solutions, so the kinases have potential for sequestrative utilization of the latter compounds. Here, we compare seven carbamate kinases from mesophilic, thermophilic, and hyperthermophilic sources. In addition to the known enzymes from Enterococcus faecalis and Pyrococcus furiosus , the previously unreported enzymes from the hyperthermophiles Thermococcus sibiricus and Thermococcus barophilus , the thermophiles Fervidobacterium nodosum and Thermosipho melanesiensis , and the mesophile Clostridium tetani were all expressed recombinantly, each in high yield. Only the clostridial enzyme did not show catalysis. In direct assays of carbamate kinase activity, the three hyperthermophilic enzymes display higher specific activities at elevated temperatures, greater stability, and remarkable substrate turnover at alkaline pH (9.9 to 11.4). Thermococcus barophilus and Thermococcus sibiricus carbamate kinases were found to be the most active when the enzymes were tested at 80°C, and maintained activity over broad temperature and pH ranges. These robust thermococcal enzymes therefore represent ideal candidates for biotechnological applications involving aqueous ammonia solutions, since nonbuffered 0.0001 to 1.0 M solutions have pH values of approximately 9.8 to 11.8. As proof of concept, here we also show that carbamoyl phosphate produced by the Thermococcus barophilus kinase is efficiently converted in situ to carbamoyl aspartate by aspartate transcarbamoylase from the same source organism. Using acetyl phosphate to simultaneously recycle the kinase cofactor ATP, at pH 9.9 carbamoyl aspartate is produced in high yield and directly from solutions of ammonia, carbon dioxide, and aspartate. IMPORTANCE Much of the nitrogen in animal wastes and used in fertilizers is commonly lost as ammonia in water runoff, from which it must be removed to prevent downstream pollution and evolution of nitrogenous greenhouse gases. Since carbamate kinases transform ammonia and carbon dioxide to carbamoyl phosphate via carbamate, and carbamoyl phosphate may be converted into other valuable compounds, the kinases provide a route for useful sequestration of ammonia, as well as of carbon dioxide, another greenhouse gas. At the same time, recycling the ammonia in chemical synthesis reduces the need for its energy-intensive production. However, robust catalysts are required for such biotransformations. Here we show that carbamate kinases from hyperthermophilic archaea display remarkable stability and high catalytic activity across broad ranges of pH and temperature, making them promising candidates for biotechnological applications. We also show that carbamoyl phosphate produced by the kinases may be efficiently used to produce carbamoyl aspartate.
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