Kendell Clement scite author profile

Author contributions K.C. and L.P. conceived the project, led the study, and wrote the software. K.C. analyzed experimental data. All authors contributed input on measurement and visualization of genome editing outcomes and provided input on the manuscript. Competing Interests At the time of manuscript preparation, J.M.G. was a consultant for Beam Therapeutics, and now is employed by Beam Therapeutics. J.K.J. has financial interests in Beam Therapeutics, Editas Medicine, Endcadia, EpiLogic Therapeutics, Pairwise Plants, Poseida Therapeutics and Transposagen Biopharmaceuticals. J.K.J.'s interests were reviewed and are managed by Massachusetts General Hospital and Partners HealthCare in accordance with their conflict of interest policies. J.K.J. is a member of the Board of Directors of the American Society of Gene and Cell Therapy. J.M.G. and J.K.J. are co-inventors on patents and patent applications that describe gene editing technologies. D.R.L. is a consultant and cofounder of Editas Medicine, Pairwise Plants and Beam Therapeutics, companies that use genome editing. Code availability.

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Engineered CRISPR–Cas12a variants with increased activities and improved targeting ranges for gene, epigenetic and base editing

Kleinstiver

et al. 2019

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Broad use of CRISPR-Cas12a (formerly Cpf1) nucleases 1 has been hindered by the requirement for an extended TTTV protospacer adjacent motif (PAM) 2 . To address this limitation, we engineered an enhanced Acidaminococcus sp. Cas12a variant (enAsCas12a) that has a substantially expanded targeting range, enabling targeting of many previously inaccessible PAMs. On average, enAsCas12a exhibits two-fold higher genome editing activity on sites with canonical TTTV PAMs compared to wild-type AsCas12a, and we successfully grafted a subset of mutations from enAsCas12a onto other previously described AsCas12a variants 3 to enhance their activities. enAsCas12a improves the efficiency of multiplex gene editing, endogenous gene activation, and C-to-T base editing, and we engineered a high-fidelity version of enAsCas12a (enAsCas12a-HF1) to reduce off-target effects. Both enAsCas12a and enAsCas12a-HF1 function in HEK293T and primary human T cells when delivered as ribonucleoprotein (RNP) complexes. Collectively, enAsCas12a provides an optimized version of Cas12a that should enable wider application of Cas12a enzymes for gene and epigenetic editing. [AU: Revised abstract OK?]

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Locally Disordered Methylation Forms the Basis of Intratumor Methylome Variation in Chronic Lymphocytic Leukemia

et al. 2014

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SUMMARY Intra-tumoral heterogeneity plays a critical role in tumor evolution. To define the contribution of DNA methylation to heterogeneity within tumors, we performed genome-scale bisulfite sequencing of 104 primary chronic lymphocytic leukemias (CLL). Compared to 26 normal B cell samples, CLLs consistently displayed higher intra-sample variability of DNA methylation patterns across the genome, which appears to arise from stochastically disordered methylation in malignant cells. Transcriptome analysis of bulk and single CLL cells revealed that methylation disorder was linked to low-level expression. Disordered methylation was further associated with adverse clinical outcome. We therefore propose that disordered methylation plays a similar role to genetic instability, enhancing the ability of cancer cells to search for superior evolutionary trajectories.

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Kendell Clement

CRISPResso2 provides accurate and rapid genome editing sequence analysis

Engineered CRISPR–Cas12a variants with increased activities and improved targeting ranges for gene, epigenetic and base editing

Locally Disordered Methylation Forms the Basis of Intratumor Methylome Variation in Chronic Lymphocytic Leukemia

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