Zobrazeno 1 - 4
of 4
pro vyhledávání: '"Shane O'Conchúir"'
Autor:
David Mavor, Kyle A. Barlow, Daniel Asarnow, Yuliya Birman, Derek Britain, Weilin Chen, Evan M. Green, Lillian R. Kenner, Bruk Mensa, Leanna S. Morinishi, Charlotte A. Nelson, Erin M. Poss, Pooja Suresh, Ruilin Tian, Taylor Arhar, Beatrice E. Ary, David P. Bauer, Ian D. Bergman, Rachel M. Brunetti, Cynthia M. Chio, Shizhong A. Dai, Miles S. Dickinson, Susanna K. Elledge, Cole V. M. Helsell, Nathan L. Hendel, Emily Kang, Nadja Kern, Matvei S. Khoroshkin, Lisa L. Kirkemo, Greyson R. Lewis, Kevin Lou, Wesley M. Marin, Alison M. Maxwell, Peter F. McTigue, Douglas Myers-Turnbull, Tamas L. Nagy, Andrew M. Natale, Keely Oltion, Sergei Pourmal, Gabriel K. Reder, Nicholas J. Rettko, Peter J. Rohweder, Daniel M. C Schwarz, Sophia K. Tan, Paul V. Thomas, Ryan W. Tibble, Jason P. Town, Mary K. Tsai, Fatima S. Ugur, Douglas R. Wassarman, Alexander M. Wolff, Taia S. Wu, Derek Bogdanoff, Jennifer Li, Kurt S. Thorn, Shane O'Conchúir, Danielle L. Swaney, Eric D. Chow, Hiten D. Madhani, Sy Redding, Daniel N. Bolon, Tanja Kortemme, Joseph L. DeRisi, Martin Kampmann, James S. Fraser
Publikováno v:
Biology Open, Vol 7, Iss 7 (2018)
Although the primary protein sequence of ubiquitin (Ub) is extremely stable over evolutionary time, it is highly tolerant to mutation during selection experiments performed in the laboratory. We have proposed that this discrepancy results from the di
Externí odkaz:
https://doaj.org/article/120375a9425d4b15800ba82e59af4543
Autor:
Jack Maguire, Ragul Gowthaman, Marion F. Sauer, Georg Kuenze, Tanja Kortemme, Benjamin Basanta, Indigo Chris King, Jens Meiler, Rhiju Das, Ora Schueler-Furman, Nicholas A. Marze, Brandon Frenz, Christoffer Norn, Julia Koehler Leman, Jason W. Labonte, Kala Bharath Pilla, Lei Shi, Sergey Lyskov, Brian D. Weitzner, Nir London, Karen R. Khar, Jaume Bonet, Nawsad Alam, Andreas Scheck, Alexander M. Sevy, Lars Malmström, Thomas Huber, Christopher Bystroff, Lior Zimmerman, Lorna Dsilva, Bruno E. Correia, Roland L. Dunbrack, Sergey Ovchinnikov, Rocco Moretti, Scott Horowitz, Phil Bradley, Frank DiMaio, Noah Ollikainen, Brian Kuhlman, Jeffrey J. Gray, Melanie L. Aprahamian, Andrew Leaver-Fay, Santrupti Nerli, Brian Koepnick, Xingjie Pan, Manasi A. Pethe, Andrew M. Watkins, Summer B. Thyme, Enrique Marcos, Vikram Khipple Mulligan, Hahnbeom Park, Po-Ssu Huang, David K. Johnson, Daniel-Adriano Silva, Patrick Barth, Shannon Smith, Caleb Geniesse, Jason K. Lai, Patrick Conway, Amelie Stein, Jeliazko R. Jeliazkov, David Baker, Dominik Gront, Kalli Kappel, Firas Khatib, Robert Kleffner, Brian J. Bender, Richard Bonneau, Kyle A. Barlow, Joseph H. Lubin, Shourya S. Roy Burman, Nikolaos G. Sgourakis, Yuval Sedan, Ryan E. Pavlovicz, Kristin Blacklock, Seth Cooper, Barak Raveh, Alisa Khramushin, John Karanicolas, Justin B. Siegel, Sharon L. Guffy, Brian G. Pierce, Alex Ford, Darwin Y. Fu, Orly Marcu, Gideon Lapidoth, Brian Coventry, René M. de Jong, Shane O’Conchúir, Thomas W. Linsky, William R. Schief, Rebecca F. Alford, Scott E. Boyken, Sagar D. Khare, Maria Szegedy, Ray Yu-Ruei Wang, Steven M. Lewis, Hamed Khakzad, Timothy M. Jacobs, Frank D. Teets, Lukasz Goldschmidt, Daisuke Kuroda, Steffen Lindert, P. Douglas Renfrew, Yifan Song, Jared Adolf-Bryfogle, Michael S. Pacella, Aliza B. Rubenstein
Publikováno v:
Nat Methods
The Rosetta software for macromolecular modeling, docking and design is extensively used in laboratories worldwide. During two decades of development by a community of laboratories at more than 60 institutions, Rosetta has been continuously refactore
Autor:
Danielle L. Swaney, Alexander M. Wolff, Tamas L. Nagy, Douglas Myers-Turnbull, Douglas R. Wassarman, Kyle A. Barlow, Paul V. Thomas, Rachel M. Brunetti, Derek Britain, Kevin Lou, Sy Redding, Wesley M. Marin, Mary K. Tsai, Kurt S. Thorn, Ryan W. Tibble, Lillian R. Kenner, Daniel M. C. Schwarz, Charlotte A. Nelson, Bruk Mensa, Fatima S. Ugur, Derek Bogdanoff, Taia S. Wu, E. Kang, Nicholas J. Rettko, Leanna S. Morinishi, Peter F. McTigue, Martin Kampmann, Gabriel K. Reder, Eric D. Chow, Alison M Maxwell, Jason Town, James S. Fraser, Andrew M. Natale, David P. Bauer, Cole Helsell, Joseph L. DeRisi, Yuliya Birman, Pooja Suresh, Evan M. Green, Ruilin Tian, Jennifer Y. Li, Sergei Pourmal, Weilin Chen, Hiten D. Madhani, Daniel N. Bolon, Miles Sasha Dickinson, Shane O’Conchúir, Keely Oltion, Daniel Asarnow, Peter J. Rohweder, Susanna K. Elledge, David Mavor, Erin M. Poss, Matvei S. Khoroshkin, Beatrice Ary, Ian D. Bergman, Nadja Kern, Taylor Arhar, Lisa L. Kirkemo, Tanja Kortemme, Sophia K. Tan, Shizhong Dai, Greyson R. Lewis, Nathan L. Hendel, Cynthia M. Chio
Publikováno v:
Biology Open
Biology open, vol 7, iss 7
Biology Open, Vol 7, Iss 7 (2018)
Mavor, D; Barlow, KA; Asarnow, D; Birman, Y; Britain, D; Chen, W; et al.(2018). Extending chemical perturbations of the ubiquitin fitness landscape in a classroom setting reveals new constraints on sequence tolerance. BIOLOGY OPEN, 7(7). doi: 10.1242/bio.036103. UCSF: Retrieved from: http://www.escholarship.org/uc/item/2hz894gr
Biology open, vol 7, iss 7
Biology Open, Vol 7, Iss 7 (2018)
Mavor, D; Barlow, KA; Asarnow, D; Birman, Y; Britain, D; Chen, W; et al.(2018). Extending chemical perturbations of the ubiquitin fitness landscape in a classroom setting reveals new constraints on sequence tolerance. BIOLOGY OPEN, 7(7). doi: 10.1242/bio.036103. UCSF: Retrieved from: http://www.escholarship.org/uc/item/2hz894gr
Although the primary protein sequence of ubiquitin (Ub) is extremely stable over evolutionary time, it is highly tolerant to mutation during selection experiments performed in the laboratory. We have proposed that this discrepancy results from the di
Autor:
Nadja Kern, Taylor Arhar, Matvei S. Khoroshkin, Ian D. Bergman, Lisa L. Kirkemo, Danielle L. Swaney, Nathan L. Hendel, Jason Town, Weilin Chen, Lillian R. Kenner, Alexander M. Wolff, Wesley M. Marin, Rachel M. Brunetti, Charlotte A. Nelson, Susanna K. Elledge, Sergei Pourmal, Greyson R. Lewis, Cynthia M. Chio, Derek Britain, Derrick Bogdanoff, Andrew M. Natale, Shane O’Conchúir, Martin Kampmann, Douglas R. Wassarmann, Kyle A. Barlow, Bruk Mensa, Gabriel K. Reder, Kurt S. Thorn, Ryan W. Tibble, Pooja Suresh, Sy Redding, Keely Oltion, Tanja Kortemme, James S. Fraser, Daniel Asarnow, Evan M. Green, Fatima S. Ugur, David L.V. Bauer, Sophia K. Tan, Joseph L. DeRisi, Beatrice Ary, Yuliya Birman, Tamas L. Nagy, Daniel N. Bolon, Miles Sasha Dickinson, Taia Wu, K. Tsai, Peter F. McTigue, Ruilin Tian, Nicholas J. Rettko, Shizhong Dai, Hiten D. Madhani, Jennifer Y. Li, Douglas Myers-Turnbull, Kevin Lou, Peter J. Rohweder, David Mavor, Daniel M. C. Schwarz, Alison M Maxwell, Erin M. Poss, Cole Helsell, E. Kang, Leanna S. Morinishi, Paul Thomas, Eric D. Chow
Although the primary protein sequence of ubiquitin (Ub) is extremely stable over evolutionary time, it is highly tolerant to mutation during selection experiments performed in the laboratory. We have proposed that this discrepancy results from the di
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::beb1693458a8341e04b43f423acafd0d