Beyond Epitope Binning: Directed in Vitro Selection of Complementary Pairs of Binding Proteins

Author(s)

Miller, Eric A; Sung, Ki-Joo; Kongsuphol, Patthara; Baniya, Subha; Aw-Yong, Hui Qi; Tay, Vivian; Tan, Yuxuan; Kabir, Farah M; Pang-Yeo, Karl; Kaspriskie, Isabel G; Sikes, Hadley D; ... Show more Show less

Abstract

© 2019 American Chemical Society. Many biotechnological applications require the simultaneous binding of affinity reagents to nonoverlapping target epitopes, the most prominent example being sandwich immunoassays. Typically, affinity pairs are identified via post facto functional analysis of clones that were not selected for complementarity. Here, we developed the Rapid Affinity Pair Identification via Directed Selection (RAPIDS) process, which enables the efficient identification of affinity reagents that function together as complementary pairs, from in vitro libraries of â¼109 variants. We used RAPIDS to develop highly specific affinity pairs against biomarkers of tuberculosis, Zika virus, and sepsis. Without additional trial-and-error screening, these affinity pairs exhibited utility in multiple assay formats. The RAPIDS process applies selective pressure to hundreds of thousands of potential affinity pairs to efficiently identify complementary pairs that bind to separate epitopes without binding to one another or nontargets, yielding diagnostic assays that are sensitive and specific by design.

Date issued

2020

URI

https://hdl.handle.net/1721.1/136268

Department

Massachusetts Institute of Technology. Department of Chemical Engineering
Singapore-MIT Alliance in Research and Technology (SMART)

Journal

ACS Combinatorial Science

Publisher

American Chemical Society (ACS)