通过共表达 Mit1 提高毕赤酵母中木聚糖酶的表达。

Enhancing xylanase expression of Komagataella phaffii induced by formate through Mit1 co-expression.

机构信息

Shanghai Engineering Research Center for Food Rapid DetectionInstitute of Food Science and EngineeringSchool of Health Science and Engineering, University of Shanghai for Science and Technology, 516 Jungong Road, Shanghai, People's Republic of China, 200093.

出版信息

Bioprocess Biosyst Eng. 2022 Sep;45(9):1515-1525. doi: 10.1007/s00449-022-02760-6. Epub 2022 Jul 26.

DOI:10.1007/s00449-022-02760-6

PMID:35881246

Abstract

Komagataella phaffii (K. phaffii) is a famous microbial cell of heterologous protein and value-added chemicals production because of its strict and strong promoter (alcohol oxidase 1 promoter, P). Formate is an attractive substitute of traditional inducer methanol because methanol is toxic and explosive. To obtain high level of Aspergillus niger ATCC1015 xylanase as a model of heterologous protein by K. phaffii at formate induction, insertion of three-copy cis-acting element W3A into P additionally, and co-expression of transcription factor Mit1 under another P were carried out separately and simultaneously. The yield of xylanase increased by 41% at formate induction when Mit1 was co-expressed. Furtherly, the yield of xylanase increased by 42% using sorbitol as supplemental carbon source with the result of 408.3 × 10 U‧L xylanase. Therefore, a non-methanol needed and inducible heterologous protein expression system of Komagataella phaffii was developed successfully.

摘要

毕赤酵母（Komagataella phaffii）是一种著名的微生物细胞，可用于生产异源蛋白和增值化学品，因为它具有严格而强大的启动子（醇氧化酶 1 启动子，P）。甲酸盐是传统诱导剂甲醇的有吸引力的替代品，因为甲醇是有毒和易爆的。为了在甲酸盐诱导下通过毕赤酵母获得作为异源蛋白模型的高活性黑曲霉 ATCC1015 木聚糖酶，分别并同时进行了将三个拷贝的顺式作用元件 W3A 插入 P 中，以及共表达转录因子 Mit1。当共表达 Mit1 时，木聚糖酶在甲酸盐诱导下的产量增加了 41%。此外，使用山梨醇作为补充碳源，木聚糖酶的产量增加了 42%，达到 408.3×10 U·L-1。因此，成功开发了一种无需甲醇且可诱导的毕赤酵母异源蛋白表达系统。

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通过共表达 Mit1 提高毕赤酵母中木聚糖酶的表达。

Enhancing xylanase expression of Komagataella phaffii induced by formate through Mit1 co-expression.

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