Two decades into the twenty-first century, a confluence of breakthrough technologies wielded at the molecular level is presenting biologists with unique opportunities to unravel the complexities of the cellular world. CRISPR/Cas9 allows gene knock-outs, knock-ins, and single-base editing at chromosomal loci. RNA-based tools such as siRNA, antisense oligos, and morpholinos can be used to silence expression of specific genes. Meanwhile, protein knockdown tools that draw inspiration from natural regulatory mechanisms and facilitate elimination of native or degron-tagged proteins from cells are rapidly emerging. The acute and reversible reduction in protein levels enabled by these methods allows for precise determination of loss-of-function phenotypes free from secondary effects or compensatory adaptation that can confound nucleic-acid-based methods that involve slow depletion or permanent loss of a protein. In this Review, we summarize the ingenious ways biologists have exploited natural mechanisms for protein degradation to direct the elimination of specific proteins at will. This has led to advancements not only in basic research but also in the therapeutic space with the introduction of PROTACs into clinical trials for cancer patients.
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