Bryan A. Sundin
University of Washington
5 Papers
31 Citations
Bryan A. Sundin is an academic researcher from University of Washington. The author has contributed to research in topics: Spindle pole body & Actin. The author has an hindex of 5, co-authored 5 publications.
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Papers
A protein interaction map for cell polarity development
Becky Drees,Bryan A. Sundin,Elizabeth Brazeau,Juliane P. Caviston,Guang-Chao Chen,Wei Guo,Keith G. Kozminski,Michelle W. Lau,John J. Moskow,Amy Hin Yan Tong,Laura R. Schenkman,Amos Mckenzie,Patrick Brennwald,Mark S. Longtine,Erfei Bi,Clarence S.M. Chan,Peter Novick,Charles Boone,John R. Pringle,Trisha N. Davis,Stanley Fields,David G. Drubin +21 more
TL;DR: A network of interactions that provide an integrated response of signaling proteins, the cytoskeleton, and organelles to the spatial cues that direct polarity development was revealed.
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Determining Protein Complex Structures Based on a Bayesian Model of in Vivo Förster Resonance Energy Transfer (FRET) Data
Massimiliano Bonomi,Massimiliano Bonomi,Riccardo Pellarin,Seung Joong Kim,Daniel Russel,Bryan A. Sundin,Michael Riffle,Daniel Jaschob,Richard Ramsden,Trisha N. Davis,Eric G D Muller,Andrej Sali +11 more
TL;DR: The Bayesian approach to determine macromolecular structures through a combination of in vivo FRETR data and data from other sources, such as electron microscopy and chemical cross-linking is implemented in the open-source Integrative Modeling Platform.
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Localization of proteins that are coordinately expressed with Cln2 during the cell cycle
TL;DR: The localization of proteins can give important clues about their function and help sort data from large‐scale proteomic screens, and noteworthy localizations were found for Rfa1p, a member of the DNA replication A complex, and Pri2p and Pol12p, subunits of the α‐DNA polymerase : primase complex.
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The Organization of the Core Proteins of the Yeast Spindle Pole Body
Eric G D Muller,Brian E. Snydsman,Isabella Novik,Dale W. Hailey,Daniel R. Gestaut,Christine A. Niemann,Eileen T. O'Toole,Tom H. Giddings,Bryan A. Sundin,Trisha N. Davis +9 more
TL;DR: The geometry was integrated with prior cryoelectron tomography to create a model of the interwoven network of proteins within the central plaque, and one prediction of the model, the dimerization of the calmodulin-binding domains of Spc110, was confirmed by in vitro analysis.
Assigning Function to Yeast Proteins by Integration of Technologies
Tony R. Hazbun,Lars Malmström,Scott Anderson,Beth Graczyk,Bethany Fox,Michael Riffle,Bryan A. Sundin,J. Derringer Aranda,W. Hayes McDonald,Chun Hwei Chiu,Brian E. Snydsman,Phillip Bradley,Eric G D Muller,Stanley Fields,David Baker,John R. Yates,Trisha N. Davis +16 more
TL;DR: This work used four complementary protein-based methods to analyze a set of 100 uncharacterized but essential open reading frames (ORFs) of the yeast Saccharomyces cerevisiae, finding that a combination of technologies, coupled with annotation using GO, is a powerful approach to classifying genes.