The mutant may be he efficiency expressed in yeast expression system.
该突变体可在酵母表达系统实现高效表达。
Yeast expression systems are based on the discover of plasmid in Saccharomyces cere- visiae and success of yeast transformation.
酵母表达系统是在酿酒酵母质粒的发现和酵母转化技术的成熟基础上建立起来的真核生物表达系统。
Its yeast expression product has the effect of inhibiting protease activity. The gene and its coded protein may be also used in medicine and biochemistry fields.
酵母表达产物具有抑制蛋白酶活性的作用,该基因和其编码蛋白也可以应用于医药和生化领域。
Methylotrophic yeast had been applied more and more widely in recent years as a new protein expression system.
近年来,甲醇酵母作为一种新的蛋白表达系统,已得到越来越广泛的应用。
These plasmids can be used in the study of foreign gene expression in yeast.
这些质粒可用于外源基因在酵母中表达的研究。
CONCLUSION: The expression of LZP3 gene in yeast could be successfully improved by using codon optimization.
结论:通过密码子优化,能显著提高LZP 3基因在酵母细胞中的表达水平。
Objective To compare the difference in protome expression between yeast form and mould form of Penicillium marneffei.
目的比较马尔尼菲青霉菌酵母相和霉菌相蛋白质组表达差异。
The Fe_acquisitionmechanism in yeast, the genes and gene expression under the condition of Fe deficiency stress for plants are summarized in this paper.
本文主要在分子生物学水平概括了酵母铁吸收转运机制和植物缺铁胁迫相关基因及其基因表达的研究进展。
The recombination EgB can be used for the expression of specific protein in yeast.
此重组体可在酵母中进一步表达特异性蛋白。
Methlotrophic yeast and fission yeast S. pombe have received attention as a good foreign genes expression system.
甲醇营养型酵母和裂殖酵母作为外源基因表达的有效系统,正引起人们广泛研究。
In mice and tobacco, this was overcome by over-expression of prolyl hydroxylase, analogous to what has been done in yeast and insect cell culture.
在小鼠和烟草中,这是通过过渡表达聚羟化酶来实现的,类似于酵母和昆虫细胞培养。
Moreover, recombinant expression of antimicrobial peptides in yeast provides us an opportunity to explore the recombinant strains as additive feedstuff of fishery.
同时,在毕赤酵母里表达抗菌肽的研究为开发转基因酵母作为鱼类饵料添加剂的应用研究提供了理论基础。
Moreover, recombinant expression of antimicrobial peptides in yeast provides us an opportunity to explore the recombinant strains as additive feedstuff of fishery.
同时,在毕赤酵母里表达抗菌肽的研究为开发转基因酵母作为鱼类饵料添加剂的应用研究提供了理论基础。
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