Saccharomyces cerevisiae is one of the most important heterologous expression systems.
酿酒酵母系统是最重要的外源基因表达系统之一。
Numerous factors that influence heterologous protein production in a certain host system must be observed to gain successful gene expression and even with high yields.
要在一种宿主表达系统中成功表达外源蛋白并获得较高产量,必须要较为全面地了解影响其表达的诸多因素。
A brief review of major strategies for the production of heterologous proteins and the expression of foreign genes in plants is introduced in this article.
作者简述了利用植物生产外源蛋白的主要策略及异源基因在植物中表达的研究进展。
Also, S. pombe has prospective biotechnological application in heterologous gene expression.
它在外源基因表达方面同样具有前景。
Results By disrupting the PEP4 gene in Pichia pastoris, the productivity of heterologous protein expression increased 9.5% on average.
结果剔除毕赤酵母中的PEP4基因后外源蛋白质表达量平均提高9.5%。
The heterologous over-expression of genes encoding AFPs in freezing-sensitive plants can enhance the freezing resistance of host plants.
异源超表达抗冻蛋白基因能赋予敏感宿主植物抗冻能力。
The heterologous over-expression of genes encoding AFPs in freezing-sensitive plants can enhance the freezing resistance of host plants.
异源超表达抗冻蛋白基因能赋予敏感宿主植物抗冻能力。
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