10.3 Bacterial preparation of anti-GFP nanobody DM Kern, SG Brohawn Ion Channels: Channel Production and Optical Methods, 231, 2021 | | 2021 |
94720, USA 2 Helen Wills Neuroscience Institute, University of California Berkeley, Berkeley, California 94720, USA 3 Biophysics Graduate Program, University of California … B Sorum, RA Rietmeijer, K Gopakumar, H Adesnik, SG Brohawn | | |
94720, USA 2Helen Wills Neuroscience Institute, University of California Berkeley, Berkeley, California 94720, USA 3California Institute for Quantitative Biology (QB3 … DM Kern, B Sorum, SS Mali, CM Hoel, S Sridharan, JP Remis, DB Toso, ... | | |
A global benchmark study using affinity-based biosensors RL Rich, GA Papalia, PJ Flynn, J Furneisen, J Quinn, JS Klein, ... Analytical biochemistry 386 (2), 194-216, 2009 | 123 | 2009 |
A lattice model of the nuclear pore complex SG Brohawn, TU Schwartz Communicative & integrative biology 2 (3), 205-207, 2009 | 21 | 2009 |
Author Correction: Cryo-EM structure of SARS-CoV-2 ORF3a in lipid nanodiscs DM Kern, B Sorum, SS Mali, CM Hoel, S Sridharan, JP Remis, DB Toso, ... Nature structural & molecular biology 28 (8), 702-702, 2021 | 5 | 2021 |
Avian sulfhydryl oxidase is not a metalloenzyme: adventitious binding of divalent metal ions to the enzyme SG Brohawn, IR Miksa, C Thorpe Biochemistry 42 (37), 11074-11082, 2003 | 33 | 2003 |
Cryo-EM structure of SARS-CoV-2 ORF3a in lipid nanodiscs DM Kern, B Sorum, SS Mali, CM Hoel, S Sridharan, JP Remis, DB Toso, ... Nature structural & molecular biology 28 (7), 573-582, 2021 | 206 | 2021 |
Cryo-EM structure of the potassium-chloride cotransporter KCC4 in lipid nanodiscs MS Reid, DM Kern, SG Brohawn Elife 9, e52505, 2020 | 46 | 2020 |
Cryo-EM structure of the SARS-CoV-2 3a ion channel in lipid nanodiscs DM Kern, B Sorum, SS Mali, CM Hoel, S Sridharan, JP Remis, DB Toso, ... BioRxiv, 2020 | 101 | 2020 |
Cryo-EM structures of the channelrhodopsin ChRmine in lipid nanodiscs K Tucker, S Sridharan, H Adesnik, SG Brohawn Nature communications 13 (1), 4842, 2022 | 24 | 2022 |
Cryo-EM structures of the DCPIB-inhibited volume-regulated anion channel LRRC8A in lipid nanodiscs DM Kern, SC Oh, RK Hite, SG Brohawn Elife 8, e42636, 2019 | 103 | 2019 |
Crystal Structure of the Human K2P TRAAK, a Lipid- and Mechano-Sensitive K+ Ion Channel SG Brohawn, J Del Mármol, R MacKinnon Science 335 (6067), 436-441, 2012 | 470 | 2012 |
Data for EMSL Project 50651 from September 2019 J Myers, S Brohawn, D Kern, C Hoel, M Reid Pacific Northwest National Lab.(PNNL), Richland, WA (United States …, 2019 | | 2019 |
Domain-swapped chain connectivity and gated membrane access in a Fab-mediated crystal of the human TRAAK K+ channel SG Brohawn, EB Campbell, R MacKinnon Proceedings of the National Academy of Sciences 110 (6), 2129-2134, 2013 | 131 | 2013 |
High-performance microbial opsins for spatially and temporally precise perturbations of large neuronal networks S Sridharan, MA Gajowa, MB Ogando, UK Jagadisan, L Abdeladim, ... Neuron 110 (7), 1139-1155. e6, 2022 | 67 | 2022 |
Homodimerization of the G protein SRβ in the nucleotide-free state involves proline cis/trans isomerization in the switch II region TU Schwartz, D Schmidt, SG Brohawn, G Blobel Proceedings of the National Academy of Sciences 103 (18), 6823-6828, 2006 | 27 | 2006 |
How ion channels sense mechanical force: insights from mechanosensitive K2P channels TRAAK, TREK1, and TREK2 SG Brohawn Annals of the New York Academy of Sciences 1352 (1), 20-32, 2015 | 118 | 2015 |
Mechanosensitivity is mediated directly by the lipid membrane in TRAAK and TREK1 K+ channels SG Brohawn, Z Su, R MacKinnon Proceedings of the National Academy of Sciences 111 (9), 3614-3619, 2014 | 394 | 2014 |
Molecular architecture of the Nup84–Nup145C–Sec13 edge element in the nuclear pore complex lattice SG Brohawn, TU Schwartz Nature structural & molecular biology 16 (11), 1173-1177, 2009 | 96 | 2009 |