Extending chemical perturbations of the ubiquitin fitness landscape in a classroom setting reveals new constraints on sequence tolerance

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 difference between fitness under laboratory culture...

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Autores principales: Mavor, David, Barlow, Kyle A., Asarnow, Daniel, Birman, Yuliya, Britain, Derek, Chen, Weilin, Green, Evan M., Kenner, Lillian R., Mensa, Bruk, Morinishi, Leanna S., Nelson, Charlotte A., Poss, Erin M., Suresh, Pooja, Tian, Ruilin, Arhar, Taylor, Ary, Beatrice E., Bauer, David P., Bergman, Ian D., Brunetti, Rachel M., Chio, Cynthia M., Dai, Shizhong A., Dickinson, Miles S., Elledge, Susanna K., Helsell, Cole V. M., Hendel, Nathan L., Kang, Emily, Kern, Nadja, Khoroshkin, Matvei S., Kirkemo, Lisa L., Lewis, Greyson R., Lou, Kevin, Marin, Wesley M., Maxwell, Alison M., McTigue, Peter F., Myers-Turnbull, Douglas, Nagy, Tamas L., Natale, Andrew M., Oltion, Keely, Pourmal, Sergei, Reder, Gabriel K., Rettko, Nicholas J., Rohweder, Peter J., Schwarz, Daniel M. C, Tan, Sophia K., Thomas, Paul V., Tibble, Ryan W., Town, Jason P., Tsai, Mary K., Ugur, Fatima S., Wassarman, Douglas R., Wolff, Alexander M., Wu, Taia S., Bogdanoff, Derek, Li, Jennifer, Thorn, Kurt S., O'Conchúir, Shane, Swaney, Danielle L., Chow, Eric D., Madhani, Hiten D., Redding, Sy, Bolon, Daniel N., Kortemme, Tanja, DeRisi, Joseph L., Kampmann, Martin, Fraser, James S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Company of Biologists Ltd 2018
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6078352/
https://www.ncbi.nlm.nih.gov/pubmed/30037883
http://dx.doi.org/10.1242/bio.036103
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author Mavor, David
Barlow, Kyle A.
Asarnow, Daniel
Birman, Yuliya
Britain, Derek
Chen, Weilin
Green, Evan M.
Kenner, Lillian R.
Mensa, Bruk
Morinishi, Leanna S.
Nelson, Charlotte A.
Poss, Erin M.
Suresh, Pooja
Tian, Ruilin
Arhar, Taylor
Ary, Beatrice E.
Bauer, David P.
Bergman, Ian D.
Brunetti, Rachel M.
Chio, Cynthia M.
Dai, Shizhong A.
Dickinson, Miles S.
Elledge, Susanna K.
Helsell, Cole V. M.
Hendel, Nathan L.
Kang, Emily
Kern, Nadja
Khoroshkin, Matvei S.
Kirkemo, Lisa L.
Lewis, Greyson R.
Lou, Kevin
Marin, Wesley M.
Maxwell, Alison M.
McTigue, Peter F.
Myers-Turnbull, Douglas
Nagy, Tamas L.
Natale, Andrew M.
Oltion, Keely
Pourmal, Sergei
Reder, Gabriel K.
Rettko, Nicholas J.
Rohweder, Peter J.
Schwarz, Daniel M. C
Tan, Sophia K.
Thomas, Paul V.
Tibble, Ryan W.
Town, Jason P.
Tsai, Mary K.
Ugur, Fatima S.
Wassarman, Douglas R.
Wolff, Alexander M.
Wu, Taia S.
Bogdanoff, Derek
Li, Jennifer
Thorn, Kurt S.
O'Conchúir, Shane
Swaney, Danielle L.
Chow, Eric D.
Madhani, Hiten D.
Redding, Sy
Bolon, Daniel N.
Kortemme, Tanja
DeRisi, Joseph L.
Kampmann, Martin
Fraser, James S.
author_facet Mavor, David
Barlow, Kyle A.
Asarnow, Daniel
Birman, Yuliya
Britain, Derek
Chen, Weilin
Green, Evan M.
Kenner, Lillian R.
Mensa, Bruk
Morinishi, Leanna S.
Nelson, Charlotte A.
Poss, Erin M.
Suresh, Pooja
Tian, Ruilin
Arhar, Taylor
Ary, Beatrice E.
Bauer, David P.
Bergman, Ian D.
Brunetti, Rachel M.
Chio, Cynthia M.
Dai, Shizhong A.
Dickinson, Miles S.
Elledge, Susanna K.
Helsell, Cole V. M.
Hendel, Nathan L.
Kang, Emily
Kern, Nadja
Khoroshkin, Matvei S.
Kirkemo, Lisa L.
Lewis, Greyson R.
Lou, Kevin
Marin, Wesley M.
Maxwell, Alison M.
McTigue, Peter F.
Myers-Turnbull, Douglas
Nagy, Tamas L.
Natale, Andrew M.
Oltion, Keely
Pourmal, Sergei
Reder, Gabriel K.
Rettko, Nicholas J.
Rohweder, Peter J.
Schwarz, Daniel M. C
Tan, Sophia K.
Thomas, Paul V.
Tibble, Ryan W.
Town, Jason P.
Tsai, Mary K.
Ugur, Fatima S.
Wassarman, Douglas R.
Wolff, Alexander M.
Wu, Taia S.
Bogdanoff, Derek
Li, Jennifer
Thorn, Kurt S.
O'Conchúir, Shane
Swaney, Danielle L.
Chow, Eric D.
Madhani, Hiten D.
Redding, Sy
Bolon, Daniel N.
Kortemme, Tanja
DeRisi, Joseph L.
Kampmann, Martin
Fraser, James S.
author_sort Mavor, David
collection PubMed
description 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 difference between fitness under laboratory culture conditions and the selective pressures in changing environments over evolutionary timescales. Building on our previous work (Mavor et al., 2016), we used deep mutational scanning to determine how twelve new chemicals (3-Amino-1,2,4-triazole, 5-fluorocytosine, Amphotericin B, CaCl(2), Cerulenin, Cobalt Acetate, Menadione, Nickel Chloride, p-Fluorophenylalanine, Rapamycin, Tamoxifen, and Tunicamycin) reveal novel mutational sensitivities of ubiquitin residues. Collectively, our experiments have identified eight new sensitizing conditions for Lys63 and uncovered a sensitizing condition for every position in Ub except Ser57 and Gln62. By determining the ubiquitin fitness landscape under different chemical constraints, our work helps to resolve the inconsistencies between deep mutational scanning experiments and sequence conservation over evolutionary timescales.
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spelling pubmed-60783522018-08-07 Extending chemical perturbations of the ubiquitin fitness landscape in a classroom setting reveals new constraints on sequence tolerance Mavor, David Barlow, Kyle A. Asarnow, Daniel Birman, Yuliya Britain, Derek Chen, Weilin Green, Evan M. Kenner, Lillian R. Mensa, Bruk Morinishi, Leanna S. Nelson, Charlotte A. Poss, Erin M. Suresh, Pooja Tian, Ruilin Arhar, Taylor Ary, Beatrice E. Bauer, David P. Bergman, Ian D. Brunetti, Rachel M. Chio, Cynthia M. Dai, Shizhong A. Dickinson, Miles S. Elledge, Susanna K. Helsell, Cole V. M. Hendel, Nathan L. Kang, Emily Kern, Nadja Khoroshkin, Matvei S. Kirkemo, Lisa L. Lewis, Greyson R. Lou, Kevin Marin, Wesley M. Maxwell, Alison M. McTigue, Peter F. Myers-Turnbull, Douglas Nagy, Tamas L. Natale, Andrew M. Oltion, Keely Pourmal, Sergei Reder, Gabriel K. Rettko, Nicholas J. Rohweder, Peter J. Schwarz, Daniel M. C Tan, Sophia K. Thomas, Paul V. Tibble, Ryan W. Town, Jason P. Tsai, Mary K. Ugur, Fatima S. Wassarman, Douglas R. Wolff, Alexander M. Wu, Taia S. Bogdanoff, Derek Li, Jennifer Thorn, Kurt S. O'Conchúir, Shane Swaney, Danielle L. Chow, Eric D. Madhani, Hiten D. Redding, Sy Bolon, Daniel N. Kortemme, Tanja DeRisi, Joseph L. Kampmann, Martin Fraser, James S. Biol Open Research Article 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 difference between fitness under laboratory culture conditions and the selective pressures in changing environments over evolutionary timescales. Building on our previous work (Mavor et al., 2016), we used deep mutational scanning to determine how twelve new chemicals (3-Amino-1,2,4-triazole, 5-fluorocytosine, Amphotericin B, CaCl(2), Cerulenin, Cobalt Acetate, Menadione, Nickel Chloride, p-Fluorophenylalanine, Rapamycin, Tamoxifen, and Tunicamycin) reveal novel mutational sensitivities of ubiquitin residues. Collectively, our experiments have identified eight new sensitizing conditions for Lys63 and uncovered a sensitizing condition for every position in Ub except Ser57 and Gln62. By determining the ubiquitin fitness landscape under different chemical constraints, our work helps to resolve the inconsistencies between deep mutational scanning experiments and sequence conservation over evolutionary timescales. The Company of Biologists Ltd 2018-07-15 /pmc/articles/PMC6078352/ /pubmed/30037883 http://dx.doi.org/10.1242/bio.036103 Text en © 2018. Published by The Company of Biologists Ltd http://creativecommons.org/licenses/by/3.0This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/3.0), which permits unrestricted use, distribution and reproduction in any medium provided that the original work is properly attributed.
spellingShingle Research Article
Mavor, David
Barlow, Kyle A.
Asarnow, Daniel
Birman, Yuliya
Britain, Derek
Chen, Weilin
Green, Evan M.
Kenner, Lillian R.
Mensa, Bruk
Morinishi, Leanna S.
Nelson, Charlotte A.
Poss, Erin M.
Suresh, Pooja
Tian, Ruilin
Arhar, Taylor
Ary, Beatrice E.
Bauer, David P.
Bergman, Ian D.
Brunetti, Rachel M.
Chio, Cynthia M.
Dai, Shizhong A.
Dickinson, Miles S.
Elledge, Susanna K.
Helsell, Cole V. M.
Hendel, Nathan L.
Kang, Emily
Kern, Nadja
Khoroshkin, Matvei S.
Kirkemo, Lisa L.
Lewis, Greyson R.
Lou, Kevin
Marin, Wesley M.
Maxwell, Alison M.
McTigue, Peter F.
Myers-Turnbull, Douglas
Nagy, Tamas L.
Natale, Andrew M.
Oltion, Keely
Pourmal, Sergei
Reder, Gabriel K.
Rettko, Nicholas J.
Rohweder, Peter J.
Schwarz, Daniel M. C
Tan, Sophia K.
Thomas, Paul V.
Tibble, Ryan W.
Town, Jason P.
Tsai, Mary K.
Ugur, Fatima S.
Wassarman, Douglas R.
Wolff, Alexander M.
Wu, Taia S.
Bogdanoff, Derek
Li, Jennifer
Thorn, Kurt S.
O'Conchúir, Shane
Swaney, Danielle L.
Chow, Eric D.
Madhani, Hiten D.
Redding, Sy
Bolon, Daniel N.
Kortemme, Tanja
DeRisi, Joseph L.
Kampmann, Martin
Fraser, James S.
Extending chemical perturbations of the ubiquitin fitness landscape in a classroom setting reveals new constraints on sequence tolerance
title Extending chemical perturbations of the ubiquitin fitness landscape in a classroom setting reveals new constraints on sequence tolerance
title_full Extending chemical perturbations of the ubiquitin fitness landscape in a classroom setting reveals new constraints on sequence tolerance
title_fullStr Extending chemical perturbations of the ubiquitin fitness landscape in a classroom setting reveals new constraints on sequence tolerance
title_full_unstemmed Extending chemical perturbations of the ubiquitin fitness landscape in a classroom setting reveals new constraints on sequence tolerance
title_short Extending chemical perturbations of the ubiquitin fitness landscape in a classroom setting reveals new constraints on sequence tolerance
title_sort extending chemical perturbations of the ubiquitin fitness landscape in a classroom setting reveals new constraints on sequence tolerance
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6078352/
https://www.ncbi.nlm.nih.gov/pubmed/30037883
http://dx.doi.org/10.1242/bio.036103
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