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首页> 外文期刊>Biotechnology and bioprocess engineering >Expression and Characterization of a New L-amino Acid Oxidase AAO Producing α-ketoglutaric Acid from L-glutamic Acid
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Expression and Characterization of a New L-amino Acid Oxidase AAO Producing α-ketoglutaric Acid from L-glutamic Acid

机译:一种新的由L-谷氨酸生产α-酮戊二酸的L-氨基酸氧化酶AAO的表达与表征

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摘要

L-amino acid oxidase (AAO) was reported to be capable of converting L-glutamic acid to alpha-aketoglutaric acid (alpha-KG). The sequence of AAO from Kitasatospora cheerisanensis was synthesized based on Pichia pastoris codon-usage preferences. AAO gene was cloned into plasmid pPICZ alpha which was transformed into P. pastoris. Next, multi-copy expression plasmids were constructed by using plasmid pHBM905BDM. High-density fermentation was performed and the recombinant enzyme was characterized. The conversion conditions were optimized. By using Escherichia coli expression system, no soluble or active AAO was obtained from two strains after fermentation and induction. We can't obtain high-level expression of recombinant strains by using plasmid pPICZ alpha. Therefore, we constructed multi-copy expression plasmids using plasmid pHBM905BDM. By using this plasmid, multi-copy strains were constructed and named as PAAO1, PAAO2, PAAO3, PAAO4, and PAAO5, respectively. The following results showed that expression of AAO in multicopy strains increased as designed and strain PAAO5 was chosen for high-density fermentation and enzyme activity experiments. After high-density fermentation, we achieved an AAO-expression yield of 120.8 U/mL. After temperature and pH optimization, the highest AAO activity was observed at a temperature and pH of 20 degrees C and 6, respectively. After optimization of the conversion conditions, the average production rate of L-glutamic acid to alpha-KG was 3.46 g/L/h and the highest alpha-KG titer (103 g/L) was converted from 120 g/L L-glutamic acid. In this study, AAO was abundantly expressed by using P. pastoris expression system. The following experiments indicated that AAO is suitable for use in industrial applications.
机译:据报道,L-氨基酸氧化酶(AAO)能够将L-谷氨酸转化为α-酮戊二酸(alpha-KG)。基于巴斯德毕赤酵母密码子使用偏好,合成了北奇氏假单胞菌的AAO序列。将AAO基因克隆到质粒pPICZα中,该质粒被转化到巴斯德毕赤酵母中。接下来,通过使用质粒pHBM905BDM构建多拷贝表达质粒。进行高密度发酵并表征重组酶。优化了转化条件。通过使用大肠杆菌表达系统,发酵和诱导后从两个菌株中均未获得可溶性或活性AAO。我们无法通过使用质粒pPICZ alpha获得重组菌株的高水平表达。因此,我们使用质粒pHBM905BDM构建了多拷贝表达质粒。通过使用该质粒,构建了多拷贝菌株,并分别命名为PAAO1,PAAO2,PAAO3,PAAO4和PAAO5。以下结果表明,AAO在多拷贝菌株中的表达按设计增加,并且选择了PAAO5菌株进行高密度发酵和酶活性实验。高密度发酵后,我们的AAO表达量达到了120.8 U / mL。在温度和pH优化之后,分别在20℃和6的温度和pH下观察到最高的AAO活性。优化转化条件后,L-谷氨酸向α-KG的平均产率为3.46 g / L / h,最高的α-KG效价(103 g / L)由120 g / L L-谷氨酸转化而来酸。在这项研究中,通过使用巴斯德毕赤酵母表达系统大量表达了AAO。以下实验表明,AAO适用于工业应用。

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