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酵母生物素连接酶肽底物的噬菌体展示进化及其在细胞表面蛋白双色量子点标记中的应用。

Phage display evolution of a peptide substrate for yeast biotin ligase and application to two-color quantum dot labeling of cell surface proteins.

作者信息

Chen Irwin, Choi Yoon-Aa, Ting Alice Y

机构信息

Department of Chemistry, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.

出版信息

J Am Chem Soc. 2007 May 23;129(20):6619-25. doi: 10.1021/ja071013g. Epub 2007 May 2.

DOI:10.1021/ja071013g

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2629800/

Abstract

Site-specific protein labeling with Escherichia coli biotin ligase (BirA) has been used to introduce fluorophores, quantum dots (QDs), and photocross-linkers onto recombinant proteins fused to a 15-amino acid acceptor peptide (AP) substrate for BirA and expressed on the surface of living mammalian cells. Here, we used phage display to engineer a new and orthogonal biotin ligase-AP pair for site-specific protein labeling. Yeast biotin ligase (yBL) does not recognize the AP, but we discovered a new 15-amino acid substrate for yBL called the yeast acceptor peptide (yAP), using two generations of phage display selection from 15-mer peptide libraries. The yAP is not recognized by BirA, and thus, we were able to specifically label AP and yAP fusion proteins coexpressed in the same cell with differently colored QDs. We fused the yAP to a variety of recombinant proteins and demonstrated biotinylation by yBL at the N-terminus, C-terminus, and within a flexible internal region. yBL is extremely sequence-specific, as endogenous proteins on the surface of yeast and HeLa cells are not biotinylated. This new methodology expands the scope of biotin ligase labeling to two-color imaging and yeast-based applications.

摘要

利用大肠杆菌生物素连接酶（BirA）进行位点特异性蛋白质标记，已被用于将荧光团、量子点（QD）和光交联剂引入与BirA的15个氨基酸受体肽（AP）底物融合的重组蛋白上，并在活的哺乳动物细胞表面表达。在此，我们利用噬菌体展示技术设计了一种用于位点特异性蛋白质标记的新型正交生物素连接酶-AP对。酵母生物素连接酶（yBL）不识别AP，但我们通过从15肽文库中进行两代噬菌体展示筛选，发现了一种名为酵母受体肽（yAP）的yBL新的15个氨基酸底物。yAP不被BirA识别，因此，我们能够用不同颜色的量子点特异性标记在同一细胞中共表达的AP和yAP融合蛋白。我们将yAP与多种重组蛋白融合，并证明yBL可在N端、C端以及灵活的内部区域进行生物素化。yBL具有极高的序列特异性，因为酵母和HeLa细胞表面的内源性蛋白质不会被生物素化。这种新方法将生物素连接酶标记的范围扩展到双色成像和基于酵母的应用。