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Negative selection and stringency modulation in phage-assisted continuous evolution

2014; Nature Portfolio; Volume: 10; Issue: 3 Linguagem: Inglês

10.1038/nchembio.1453

1552-4469

Jacob C. Carlson, Ahmed H. Badran, Drago A Guggiana-Nilo, David R. Liu,

RNA and protein synthesis mechanisms

Phage-assisted continuous evolution (PACE) minimizes researcher intervention while maximizing rounds of protein evolution. New strategies now eliminate the need for intermediate substrate analogs and promote altered selectivity instead of promiscuity, exemplified by a 10,000-fold switch in polymerase specificity while retaining wild-type activity. Phage-assisted continuous evolution (PACE) uses a modified filamentous bacteriophage life cycle to substantially accelerate laboratory evolution experiments. In this work, we expand the scope and capabilities of the PACE method with two key advances that enable the evolution of biomolecules with radically altered or highly specific new activities. First, we implemented small molecule–controlled modulation of selection stringency that enables otherwise inaccessible activities to be evolved directly from inactive starting libraries through a period of evolutionary drift. Second, we developed a general negative selection that enables continuous counterselection against undesired activities. We integrated these developments to continuously evolve mutant T7 RNA polymerase enzymes with ∼10,000-fold altered, rather than merely broadened, substrate specificities during a single three-day PACE experiment. The evolved enzymes exhibit specificity for their target substrate that exceeds that of wild-type RNA polymerases for their cognate substrates while maintaining wild type–like levels of activity.