The utilization of auto-inducible Plyb promoter and media optimation for cell density-dependent expression of recombinant xylanase in Bacillus subtilis DB104

Haniyya Haniyya, Dini Achnafani, M. Ulfah, N. Nurhayati, I. Helianti
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Abstract

Strong promoters are one of the fundamental aspects to increase the level of gene expression, and one of approach to improve the recombinant enzyme productivity so that the efficiency of production cost for enzyme production in industrial scale can be reached. Here we assessed the application of a cell density-dependent promoter and media optimation to promote cell growth and protein expression of Bacillus subtilis without excess usage of inducers. An auto-inducible Pylb promoter that is potential to provide inducer-free enzyme production was cloned and introduced into xylanase recombinant system in B. subtilis DB104 by PCR cloning and protoplast transformation. A 200 bp target gene was successfully inserted in between xynCM1 ORF -coding for B. halodurans CM1 xylanase- and its native promoter sequence at the upstream region. The disruption of the native promoter was intended to replace the native promoter with Pylb. Recombinant xylanase gene under Pylb was successfully expressed in B. subtilis DB104 and the enzyme was produced at stationary phase. Different media with various concentrations of glucose and nitrogen were used to optimize recombinant xylanase expression. It achieved a higher level of xylanase expression compared to wild-type and recombinant xylanase with native promoter B. subtilis in media containing a 2-fold recipe of LB media thus leads to increase cell density and xylanase expression (81.461 U mL-1).
利用自诱导型Plyb启动子及培养基优化在枯草芽孢杆菌DB104细胞密度依赖性表达重组木聚糖酶
强启动子是提高基因表达水平的基础之一,也是提高重组酶生产效率的途径之一,从而达到工业化规模酶生产的生产成本效率。在这里,我们评估了细胞密度依赖启动子和培养基优化的应用,以促进枯草芽孢杆菌的细胞生长和蛋白质表达,而不过量使用诱导剂。通过PCR克隆和原生质体转化,克隆出一个具有自诱导能力的Pylb启动子,并将其引入枯草芽孢杆菌DB104的木聚糖酶重组体系中。成功地将一个200 bp的靶基因插入到编码b.h halodurans CM1木聚糖酶的xynCM1 ORF和上游区域的原生启动子序列之间。破坏原生启动子的目的是用Pylb代替原生启动子。在Pylb下成功地在枯草芽孢杆菌DB104中表达了重组木聚糖酶基因,并在固定相生产了该酶。利用不同浓度葡萄糖和氮的培养基优化重组木聚糖酶的表达。在含有2倍LB培养基的培养基中,与野生型和天然启动子枯草芽孢杆菌的重组木聚糖酶相比,它的木聚糖酶表达水平更高,从而增加了细胞密度和木聚糖酶表达量(81.461 U mL-1)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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