Ultra-large chemical libraries for the discovery of high-affinity peptide binders

Synthetic peptide libraries can access broad chemical space, but generally examine only ~ 106 compounds. Here, the authors show that in-solution affinity selection, interfaced with nLC-MS/MS sequencing, can identify binders from fully randomized synthetic libraries of 108 members.

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Bibliographic Details
Main Authors:	Anthony J. Quartararo, Zachary P. Gates, Bente A. Somsen, Nina Hartrampf, Xiyun Ye, Arisa Shimada, Yasuhiro Kajihara, Christian Ottmann, Bradley L. Pentelute
Format:	article
Language:	EN
Published:	Nature Portfolio 2020
Subjects:	Science Q
Online Access:	https://doaj.org/article/a74b9352b36b4fe7805bb71af9a0b66c
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Description
Summary:	Synthetic peptide libraries can access broad chemical space, but generally examine only ~ 106 compounds. Here, the authors show that in-solution affinity selection, interfaced with nLC-MS/MS sequencing, can identify binders from fully randomized synthetic libraries of 108 members.

Ultra-large chemical libraries for the discovery of high-affinity peptide binders

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