生物技术通报 ›› 2017, Vol. 33 ›› Issue (8): 192-198.doi: 10.13560/j.cnki.biotech.bull.1985.2017-0172

• 研究报告 • 上一篇    下一篇

极端嗜热α-淀粉酶ApkA的高温活性和热稳定性的优化研究

曾静, 郭建军, 袁林, 杨罡, 陈俊   

  1. 江西省科学院微生物研究所,南昌 330096
  • 收稿日期:2017-03-09 出版日期:2017-08-01 发布日期:2017-08-01
  • 作者简介:曾静,女,博士,助理研究员,研究方向:极端嗜热酶的开发与应用;E-mail:zengjingwhu@126.com
  • 基金资助:
    国家自然科学基金青年科学基金项目(31501422),江西省青年科学基金项目(20171BAB214003),江西省科学院资助项目(2014-YYB-08,2014-XTPH1-08)

Optimization of the Thermal Activity and Stability of Hyperthermophilic α-amylase ApkA

ZENG Jing, GUO Jian-jun, YUAN Lin, YANG Gang, CHEN Jun   

  1. Institute of Microbiology,Jiangxi Academy of Sciences,Nanchang 330096
  • Received:2017-03-09 Published:2017-08-01 Online:2017-08-01

摘要: 旨在获得高温活性和热稳定性提高的α-淀粉酶。通过向α-淀粉酶ApkA中引入目前已知的最稳定的α-淀粉酶PFA的Zn2+结合位点,获得Zn2+结合位点突变体ApkAdsK152H/A166C。酶学性质分析表明,ApkAdsK152H/A166C的高温活性和热稳定性明显提高,最适反应温度由90℃提高至100℃,对应的酶比活力为5 201.08 U/mg。ApkAdsK152H/A166C于90℃的半衰期由5 h延长至10 h,于100℃的半衰期由7.5 min延长至80 min。重组α-淀粉酶中Zn2+含量测定结果显示ApkAdsK152H/A166C结合了一个Zn2+。结果表明,向ApkA中引入Zn2+结合位点有利于提高其高温活性和热稳定性。

关键词: 极端嗜热α-淀粉酶, Zn2+-结合位点, 定点突变, 高温活性, 热稳定性

Abstract: This work aims to obtain α-amylase with improved thermal activity and stability. Based on the structure analysis of hyperthermophilic α-amylase ApkA and the most thermo-stable α-amylase PFA,a Zn2+-binding site mutant ApkAdsK152H/A166C was constructed by introducing the Zn2+-binding site of PFA into ApkA. The mutant ApkAdsK152H/A166C exhibited effective increase in terms of thermal activity and stability. The optimal temperature of the mutant increased from 90℃ to 100℃ and the corresponding specific activity was 5 201.08 U/mg. The half-life of ApkAdsK152H/A166C prolonged from 5 h to 10 h while incubated at 90℃,and from 7.5 min to 80 min at 100℃. The results of Zn2+ content measurement in recombinant α-amylases confirmed that ApkAdsK152H/A166C bound with one Zn2+ ion. These results suggested that the introduction of Zn2+-binding site improved the thermal activity and stability of ApkA.

Key words: hyperthermophilic α-amylase, Zn2+-binding site, site-directed mutagenesis, thermo-activity, thermostability