Jelani Nelson scite author profile

While prime editing enables precise sequence changes in DNA, cellular determinants of prime editing remain poorly understood. Using pooled CRISPRi screens, we discovered that DNA mismatch repair (MMR) impedes prime editing and promotes undesired indel byproducts. We developed PE4 and PE5 prime editing systems in which transient expression of an engineered MMR-inhibiting protein enhances the efficiency of substitution, small insertion, and small deletion prime edits by an average 7.7-fold and 2.0-fold compared to PE2 and PE3 systems, respectively, while improving edit/indel ratios by 3.4-fold in MMR-proficient cell types. Strategic installation of silent mutations near the intended edit can enhance prime editing outcomes by evading MMR. Prime editor protein optimization resulted in a PEmax architecture that enhances editing efficacy by 2.8-fold on average in HeLa cells. These findings enrich our understanding of prime editing and establish prime editing systems that show substantial improvement across 191 edits in seven mammalian cell types. ll

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Evidence for transmission of Pseudomonas cepacia by social contact in cystic fibrosis

Govan

et al. 1993

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Metabolism of Free Guanidine in Bacteria Is Regulated by a Widespread Riboswitch Class

et al. 2017

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SUMMARY The guanidyl moiety is a component of fundamental metabolites including the amino acid arginine, the energy carrier creatine, and the nucleobase guanine. Curiously, reports regarding the importance of free guanidine in biology are sparse and no biological receptors that specifically recognize this compound have been previously identified. We report that many members of the ykkC motif RNA, the longest-unresolved riboswitch candidate, naturally sense and respond to guanidine. This RNA is found throughout much of the bacterial domain of life, where it commonly controls the expression of proteins annotated as urea carboxylases and multidrug efflux pumps. Our analyses reveal that these proteins likely function as guanidine carboxylases and guanidine transporters, respectively. Furthermore, we demonstrate that bacteria are capable of endogenously producing guanidine. These and related findings demonstrate that free guanidine is a biologically relevant compound and several gene families exists that can alleviate guanidine toxicity.

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Jelani Nelson

Enhanced prime editing systems by manipulating cellular determinants of editing outcomes

Evidence for transmission of Pseudomonas cepacia by social contact in cystic fibrosis

Metabolism of Free Guanidine in Bacteria Is Regulated by a Widespread Riboswitch Class

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