eLife

Automated structure refinement of macromolecular assemblies from cryo-EM maps using Rosetta.

eLife

Wang RY, Song Y, Barad BA, Cheng Y, Fraser JS, DiMaio F

Automated structure refinement of macromolecular assemblies from cryo-EM maps using Rosetta.

eLife

Wang RY, Song Y, Barad BA, Cheng Y, Fraser JS, DiMaio F

Compact and highly active next-generation libraries for CRISPR-mediated gene repression and activation.

eLife

Horlbeck MA, Gilbert LA, Villalta JE, Adamson B, Pak RA, Chen Y, Fields AP, Park CY, Corn JE, Kampmann M, Weissman JS

Compact and highly active next-generation libraries for CRISPR-mediated gene repression and activation.

eLife

Horlbeck MA, Gilbert LA, Villalta JE, Adamson B, Pak RA, Chen Y, Fields AP, Park CY, Corn JE, Kampmann M, Weissman JS

Nucleosome breathing and remodeling constrain CRISPR-Cas9 function.

eLife

Isaac RS, Jiang F, Doudna JA, Lim WA, Narlikar GJ, Almeida R

Nucleosome breathing and remodeling constrain CRISPR-Cas9 function.

eLife

Isaac RS, Jiang F, Doudna JA, Lim WA, Narlikar GJ, Almeida R

Determination of ubiquitin fitness landscapes under different chemical stresses in a classroom setting.

eLife

Mavor D, Barlow K, Thompson S, Barad BA, Bonny AR, Cario CL, Gaskins G, Liu Z, Deming L, Axen SD, Caceres E, Chen W, Cuesta A, Gate RE, Green EM, Hulce KR, Ji W, Kenner LR, Mensa B, Morinishi LS, Moss SM, Mravic M, Muir RK, Niekamp S, Nnadi CI, Palovcak E, Poss EM, Ross TD, Salcedo EC, See SK, Subramaniam M, Wong AW, Li J, Thorn KS, Conchúir SÓ, Roscoe BP, Chow ED, DeRisi JL, Kortemme T, Bolon DN, Fraser JS

Determination of ubiquitin fitness landscapes under different chemical stresses in a classroom setting.

eLife

Mavor D, Barlow K, Thompson S, Barad BA, Bonny AR, Cario CL, Gaskins G, Liu Z, Deming L, Axen SD, Caceres E, Chen W, Cuesta A, Gate RE, Green EM, Hulce KR, Ji W, Kenner LR, Mensa B, Morinishi LS, Moss SM, Mravic M, Muir RK, Niekamp S, Nnadi CI, Palovcak E, Poss EM, Ross TD, Salcedo EC, See SK, Subramaniam M, Wong AW, Li J, Thorn KS, Conchúir SÓ, Roscoe BP, Chow ED, DeRisi JL, Kortemme T, Bolon DN, Fraser JS

Nucleosomes impede Cas9 access to DNA in vivo and in vitro.

eLife

Horlbeck MA, Witkowsky LB, Guglielmi B, Replogle JM, Gilbert LA, Villalta JE, Torigoe SE, Tjian R, Weissman JS

Nucleosomes impede Cas9 access to DNA in vivo and in vitro.

eLife

Horlbeck MA, Witkowsky LB, Guglielmi B, Replogle JM, Gilbert LA, Villalta JE, Torigoe SE, Tjian R, Weissman JS

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