"Antibody-breeding" has provided therapeutic/diagnostic antibody mutants with greater performance than native antibodies. Typically, random point mutations are introduced into the V and V domains of parent antibodies to generate diverse libraries of single-chain Fv fragments (scFvs), from which evolved mutants are selected. We produced an scFv against estradiol-17β with 11 amino acid substitutions and a >100-fold improved affinity constant (K = 1.19 × 10 M) over the parent scFv, enabling immunoassays with >30-fold higher sensitivity. We systematically analyzed contributions of these substitutions to the affinity enhancement. Comparing various partial scFv revertants based on their Ks indicated that a revertant with four substitutions (V-L100gQ, V-I29V, -L36M, -S77G) exhibited somewhat higher affinity (K = 1.46 × 10 M). Finally, the V-L100gQ substitution, occurring in V complementarity-determining region (CDR) 3, was found to be the highest-priority for improving the affinity, and V-I29V and/or V-L36M cooperated significantly. These findings encouraged us to reconsider the potential of V-CDR3-targeting mutagenesis, which has been frequently attempted. The substitution(s) wherein might enable a "high rate of return" in terms of selecting mutants with dramatically enhanced affinities. The "high risk" of generating a tremendous excess of "junk mutants" can be overcome with the efficient selection systems that we developed.
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| http://dx.doi.org/10.1038/s41598-020-61529-7 | DOI Listing |
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