Conclusion: The random peptide library has been successfully constructed.
结论:丝状噬菌体随机肽库被成功构建。
Objective to further reconstruct the new phage display vector for more effectively displaying the foreign random peptide library.
目的进一步改造噬菌体展示载体,使之能更有效地展示各种外源随机多肽文库。
To establish an improved procedure for isolation and identification of epitopes from a random peptide library displayed on the bacterial surface.
目的建立、改进并完善从细菌表面展示随机肽库中进行抗原表位筛选及鉴定的方法。
By selecting suitable protein scaffold, display and screening methods, the rational and constrained random peptide library (RPL) can be constructed.
选择适宜的蛋白骨架和展示、筛选方法,可构建基于合理蛋白骨架结构的优化限制性随机肽库。
AIM: To construct a cycle peptide library composed of 16 random amino acids with yeast two hybrid system.
目的:构建含16个氨基酸的酵母双杂交随机环肽库。
Phage-displayed peptide library technology is based on expressing recombinant random peptides on the surface of filamentous phage and selecting function peptides.
噬菌体展示技术是将随机多肽文库表达于丝状噬菌体的表面,筛选功能性多肽的一种生物技术。
Phage-displayed peptide library technology is based on expressing recombinant random peptides on the surface of filamentous phage and selecting function peptides.
噬菌体展示技术是将随机多肽文库表达于丝状噬菌体的表面,筛选功能性多肽的一种生物技术。
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