S
Shuye Pu
Researcher at University of Toronto
Publications - 38
Citations - 4660
Shuye Pu is an academic researcher from University of Toronto. The author has contributed to research in topics: Chromatin & Gene. The author has an hindex of 18, co-authored 33 publications receiving 4419 citations. Previous affiliations of Shuye Pu include Hospital for Sick Children.
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Journal ArticleDOI
Global landscape of protein complexes in the yeast Saccharomyces cerevisiae
Nevan J. Krogan,Gerard Cagney,Gerard Cagney,Haiyuan Yu,Gouqing Zhong,Xinghua Guo,Alexandr Ignatchenko,Joyce Li,Shuye Pu,Nira Datta,Aaron Tikuisis,Thanuja Punna,José M. Peregrín-Alvarez,Michael Shales,Xin Zhang,Michael Davey,Mark D. Robinson,Alberto Paccanaro,James E. Bray,Anthony Sheung,Bryan Beattie,Dawn Richards,Veronica Canadien,Atanas Iliev Lalev,Frank Mena,Peter D Wong,Andrei Starostine,Myra M. Canete,James Vlasblom,Samuel Wu,Chris Orsi,Sean R. Collins,Shamanta Chandran,Robin Haw,Jennifer J. Rilstone,Kiran Gandi,Natalie J. Thompson,Gabe Musso,Peter St Onge,Shaun Ghanny,Mandy H. Y. Lam,Gareth Butland,Amin M. Altaf-Ul,Shigehiko Kanaya,Ali Shilatifard,Erin K. O'Shea,Jonathan S. Weissman,C. James Ingles,Timothy P. Hughes,John Parkinson,Mark Gerstein,Shoshana J. Wodak,Andrew Emili,Jack Greenblatt +53 more
TL;DR: T tandem affinity purification was used to process 4,562 different tagged proteins of the yeast Saccharomyces cerevisiae to identify protein–protein interactions, which will help future studies on individual proteins as well as functional genomics and systems biology.
Journal ArticleDOI
Up-to-date catalogues of yeast protein complexes
TL;DR: Two catalogues of yeast protein complexes are reported, one of which is a comprehensive catalogue of 408 manually curated heteromeric protein complexes reliably backed by small-scale experiments reported in the current literature and the other comprises 400 high-throughput complexes annotated with current literature evidence.
Journal ArticleDOI
Interaction landscape of membrane - protein complexes in Saccharomyces cerevisiae
Mohan Babu,James Vlasblom,Shuye Pu,Xinghua Guo,Chris Graham,Björn D. M. Bean,Helen E. Burston,Franco J. Vizeacoumar,Jamie Snider,Sadhna Phanse,Vincent Fong,Yuen Yi C. Tam,Michael Davey,Olha Hnatshak,Navgeet Bajaj,Shamanta Chandran,Thanuja Punna,Constantine Christopolous,Victoria Wong,Analyn Yu,Gouqing Zhong,Joyce Li,Igor Stagljar,Elizabeth Conibear,Shoshana J. Wodak,Andrew Emili,Jack Greenblatt +26 more
TL;DR: A complete survey of putative integral, peripheral and lipid-anchored MPs from Saccharomyces cerevisiae was reported, which revealed unexpected physical associations underlying the membrane biology of eukaryotes and delineates the global topological landscape of the membrane interactome.
Journal ArticleDOI
Identifying functional modules in the physical interactome of Saccharomyces cerevisiae
TL;DR: This work applies the Markov Cluster procedure to an alternative yeast interaction network, recently derived by combining the data from the two latest TAP/MS studies, and produces a new description of yeast protein complexes that is more accurate and meaningful than those previously published.
Journal ArticleDOI
Assessment of a method to characterize antibody selectivity and specificity for use in immunoprecipitation
Edyta Marcon,Harshika Jain,Anandi Bhattacharya,Hongbo Guo,Sadhna Phanse,Shuye Pu,Gregory Byram,Ben C. Collins,Evan Dowdell,Maria Fenner,Xinghua Guo,Ashley Hutchinson,Jacob J. Kennedy,Bryan Krastins,Brett Larsen,Zhen Yuan Lin,Mary F. Lopez,Peter Loppnau,Shane Miersch,Tin Nguyen,Jonathan B. Olsen,Marcin Paduch,Mani Ravichandran,Alma Seitova,Gouri Vadali,Maryann Vogelsang,Jeffrey R. Whiteaker,Guoqing Zhong,Nan Zhong,Lei Zhao,Ruedi Aebersold,Cheryl H. Arrowsmith,Andrew Emili,Lori Frappier,Anne-Claude Gingras,Matthias Gstaiger,Amanda G. Paulovich,Shohei Koide,Anthony A. Kossiakoff,Sachdev S. Sidhu,Shoshana J. Wodak,Susanne Gräslund,Jack Greenblatt,Aled M. Edwards +43 more
TL;DR: This paper quantified the abundance of all the proteins in immunoprecipitates of 1,124 new recombinant antibodies for 152 chromatin-related human proteins by comparing normalized spectral abundance factors from the target antigen with those of all other proteins.