Justin Kollman
Justin Kollman
Associate Professor, Department of Biochemistry, University of Washington
Verified email at - Homepage
Cited by
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The RND permease superfamily: an ancient, ubiquitous and diverse family that includes human disease and development proteins
TT Tseng, KS Gratwick, J Kollman, D Park, DH Nies, A Goffeau, ...
Journal of molecular microbiology and biotechnology 1 (1), 107-125, 1999
Microtubule nucleation by γ-tubulin complexes
JM Kollman, A Merdes, L Mourey, DA Agard
Nature reviews Molecular cell biology 12 (11), 709-721, 2011
Crystal structure of human fibrinogen
JM Kollman, L Pandi, MR Sawaya, M Riley, RF Doolittle
Biochemistry 48 (18), 3877-3886, 2009
Microtubule nucleating γ-TuSC assembles structures with 13-fold microtubule-like symmetry
JM Kollman, JK Polka, A Zelter, TN Davis, DA Agard
Nature 466 (7308), 879-882, 2010
Crystal Structure of Native Chicken Fibrinogen at 2.7 Ň Resolution,
Z Yang, JM Kollman, L Pandi, RF Doolittle
Biochemistry 40 (42), 12515-12523, 2001
Large-scale filament formation inhibits the activity of CTP synthetase
RM Barry, AF Bitbol, A Lorestani, EJ Charles, CH Habrian, JM Hansen, ...
Elife 3, 2014
Human CTP synthase filament structure reveals the active enzyme conformation
EM Lynch, DR Hicks, M Shepherd, JA Endrizzi, A Maker, JM Hansen, ...
Nature structural & molecular biology 24 (6), 507-514, 2017
The structure of the γ-tubulin small complex: implications of its architecture and flexibility for microtubule nucleation
JM Kollman, A Zelter, EGD Muller, B Fox, LM Rice, TN Davis, DA Agard
Molecular biology of the cell 19 (1), 207-215, 2008
Ring closure activates yeast γTuRC for species-specific microtubule nucleation
JM Kollman, CH Greenberg, S Li, M Moritz, A Zelter, KK Fong, ...
Nature structural & molecular biology 22 (2), 132-137, 2015
De novo design of self-assembling helical protein filaments
H Shen, JA Fallas, E Lynch, W Sheffler, B Parry, N Jannetty, J Decarreau, ...
Science 362 (6415), 705-709, 2018
Crystal structure of γ-tubulin complex protein GCP4 provides insight into microtubule nucleation
V Guillet, M Knibiehler, L Gregory-Pauron, MH Remy, C Chemin, ...
Nature structural & molecular biology 18 (8), 915-919, 2011
Computational design of transmembrane pores
C Xu, P Lu, TM Gamal El-Din, XY Pei, MC Johnson, A Uyeda, MJ Bick, ...
Nature 585 (7823), 129-134, 2020
The glycolytic enzyme phosphofructokinase-1 assembles into filaments
BA Webb, AM Dosey, T Wittmann, JM Kollman, DL Barber
Journal of Cell Biology 216 (8), 2305-2313, 2017
The structure and assembly dynamics of plasmid actin AlfA imply a novel mechanism of DNA segregation
JK Polka, JM Kollman, DA Agard, RD Mullins
Journal of bacteriology 191 (20), 6219-6230, 2009
The Acinetobacter baumannii Mla system and glycerophospholipid transport to the outer membrane
C Kamischke, J Fan, J Bergeron, HD Kulasekara, ZD Dalebroux, A Burrell, ...
Elife 8, e40171, 2019
The bacterial actin MamK: in vitro assembly behavior and filament architecture
E Ozyamak, J Kollman, DA Agard, A Komeili
Journal of Biological Chemistry 288 (6), 4265-4277, 2013
The Structure and Dynamics of C. Šelegans Tubulin Reveals the Mechanistic Basis of Microtubule Growth
S Chaaban, S Jariwala, CT Hsu, S Redemann, JM Kollman, ...
Developmental cell 47 (2), 191-204. e8, 2018
Design of biologically active binary protein 2D materials
AJ Ben-Sasson, JL Watson, W Sheffler, MC Johnson, A Bittleston, ...
Nature 589 (7842), 468-473, 2021
Natively unfolded regions of the vertebrate fibrinogen molecule
RF Doolittle, JM Kollman
PROTEINS: Structure, Function, and Bioinformatics 63 (2), 391-397, 2006
Vitrification after multiple rounds of sample application and blotting improves particle density on cryo-electron microscopy grids
J Snijder, AJ Borst, A Dosey, AC Walls, A Burrell, VS Reddy, JM Kollman, ...
Journal of structural biology 198 (1), 38-42, 2017
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