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Author Details

Gabriel C Lander
The Scripps Research Institute
2003
102
42
Andrej Sali (CM4AI)
PMIDPaper TitleJournal TitlePublished Year
38036174The N1 domain of the peroxisomal AAA-ATPase Pex6 is required for Pex15 binding and proper assembly with Pex1.J Biol Chem2024
37215033Succinylation of a KEAP1 sensor lysine promotes NRF2 activation.bioRxiv2023
37558671Structural basis for a degenerate tRNA identity code and the evolution of bimodal specificity in human mitochondrial tRNA recognition.Nat Commun2023
37710013Structure reveals why genome folding is necessary for site-specific integration of foreign DNA into CRISPR arrays.Nat Struct Mol Biol2023
37747197Fabrication of Monolayer Graphene-Coated Grids for Cryoelectron Microscopy.J Vis Exp2023
37745580The Pex6 N1 domain is required for Pex15 binding and proper assembly with Pex1.bioRxiv2023
37619563Succinylation of a KEAP1 sensor lysine promotes NRF2 activation.Cell Chem Biol2023
37550454DELE1 oligomerization promotes integrated stress response activation.Nat Struct Mol Biol2023
35264557The YΦ motif defines the structure-activity relationships of human 20S proteasome activators.Nat Commun2022
36042193Structural basis for shape-selective recognition and aminoacylation of a D-armless human mitochondrial tRNA.Nat Commun2022
35864165Coupling of distant ATPase domains in the circadian clock protein KaiC.Nat Struct Mol Biol2022
36378961Molecular glue CELMoD compounds are regulators of cereblon conformation.Science2022
34981768A case for glycerol as an acceptable additive for single-particle cryoEM samples.Acta Crystallogr D Struct Biol2022
35143841Cryo-EM structure of hexameric yeast Lon protease (PIM1) highlights the importance of conserved structural elements.J Biol Chem2022
35199390Allosteric differences dictate GroEL complementation of E. coli.FASEB J2022
34050165Structures of the human LONP1 protease reveal regulatory steps involved in protease activation.Nat Commun2021
34709401Conquer by cryo-EM without physically dividing.Biochem Soc Trans2021
34471284Structural basis for piRNA targeting.Nature2021
32483187AcrIF9 tethers non-sequence specific dsDNA to the CRISPR RNA-guided surveillance complex.Nat Commun2020
31754261The molecular principles governing the activity and functional diversity of AAA+ proteins.Nat Rev Mol Cell Biol2020
32101164Dynamics at the serine loop underlie differential affinity of cryptochromes for CLOCK:BMAL1 to control circadian timing.Elife2020
32919493Present and Emerging Methodologies in Cryo-EM Single-Particle Analysis.Biophys J2020
32599507How low can we go? Structure determination of small biological complexes using single-particle cryo-EM.Curr Opin Struct Biol2020
32647824Sub-2 Angstrom resolution structure determination using single-particle cryo-EM at 200⿯keV.J Struct Biol X2020
32203494Author Correction: An allosteric network in spastin couples multiple activities required for microtubule severing.Nat Struct Mol Biol2020
32490208Structural basis for distinct operational modes and protease activation in AAA+ protease Lon.Sci Adv2020
30449687A Multi-model Approach to Assessing Local and Global Cryo-EM Map Quality.Structure2019
31778111Specific lid-base contacts in the 26s proteasome control the conformational switching required for substrate degradation.Elife2019
31327635Unique Structural Features of the Mitochondrial AAA+ Protease AFG3L2 Reveal the Molecular Basis for Activity in Health and Disease.Mol Cell2019
31553060Current outcomes when optimizing 'standard' sample preparation for single-particle cryo-EM.J Microsc2019
31431622Visualizing structural transitions of ligand-dependent gating of the TRPM2 channel.Nat Commun2019
31285604An allosteric network in spastin couples multiple activities required for microtubule severing.Nat Struct Mol Biol2019
31285262Setting the dynein motor in motion: New insights from electron tomography.J Biol Chem2019
30833564High-resolution structure determination of sub-100â¿¿kDa complexes using conventional cryo-EM.Nat Commun2019
30872121Structure Reveals a Mechanism of CRISPR-RNA-Guided Nuclease Recruitment and Anti-CRISPR Viral Mimicry.Mol Cell2019
29217583Structure of the cold- and menthol-sensing ion channel TRPM8.Science2018
30185561Insights into autophagosome biogenesis from structural and biochemical analyses of the ATG2A-WIPI4 complex.Proc Natl Acad Sci U S A2018
29954988Cryo-EM structure of a mitochondrial calcium uniporter.Science2018
30766969The rod-shaped ATG2A-WIPI4 complex tethers membranes in vitro.Contact (Thousand Oaks)2018
30429472Conformational ensemble of the human TRPV3 ion channel.Nat Commun2018
30309908Substrate-engaged 26<i>S</i> proteasome structures reveal mechanisms for ATP-hydrolysis-driven translocation.Science2018
29476122Author Correction: Cryo-electron tomography reveals that dynactin recruits a team of dyneins for processive motility.Nat Struct Mol Biol2018
29416113Cryo-electron tomography reveals that dynactin recruits a team of dyneins for processive motility.Nat Struct Mol Biol2018
29486249Exploring applications of crowdsourcing to cryo-EM.J Struct Biol2018
29321502The peroxisomal AAA-ATPase Pex1/Pex6 unfolds substrates by processive threading.Nat Commun2018
28655754The endoplasmic reticulum HSP40 co-chaperone ERdj3/DNAJB11 assembles and functions as a tetramer.EMBO J2017
28340349Structure Reveals Mechanisms of Viral Suppressors that Intercept a CRISPR RNA-Guided Surveillance Complex.Cell2017
28438998Cas1 and the Csy complex are opposing regulators of Cas2/3 nuclease activity.Proc Natl Acad Sci U S A2017
28991891Achieving better-than-3-ÿ resolution by single-particle cryo-EM at 200 keV.Nat Methods2017
29097521Structure of the mitochondrial inner membrane AAA+ protease YME1 gives insight into substrate processing.Science2017
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Collaborators

Columbia University
Co-authored papers 14
The Scripps Research Institute
Co-authored papers 9
Scripps Research Institute
Co-authored papers 4
University of California San Francisco (UCSF) School of Medicine
Co-authored papers 4
University of Michigan ann arbor
Co-authored papers 3
Florida State University
Co-authored papers 3
Stanford University
Co-authored papers 2
Carnegie Institution for Science
Co-authored papers 2
Carnegie Institution for Science
Co-authored papers 2
Carnegie Institution for Science
Co-authored papers 2
Lawrence Berkeley National Laboratory
Co-authored papers 2
The Scripps Research Institute
Co-authored papers 2
University of Toronto, University Avenue
Co-authored papers 2
University of California san francisco
Co-authored papers 2
Boyce Thompson Institute (BTI)
Co-authored papers 2
Utrecht University
Co-authored papers 2
Samuel Roberts Noble Foundation
Co-authored papers 2
Institute of Molecular Systems Biology, ETH Zurich
Co-authored papers 2
Carnegie Institution for Science
Co-authored papers 2
University of California San Francisco
Co-authored papers 1
ETH Zurich
Co-authored papers 1
Department of Pharmaceutical Chemistry, University of California San Francisco
Co-authored papers 1
Co-authored papers 1
Institute for Neurodegenerative Diseases, University of California San Francisco
Co-authored papers 1
University of Washington
Co-authored papers 1
National Institute of Allergy and Infectious Diseases, National Institutes of Health
Co-authored papers 1
The Scripps Research Institute
Co-authored papers 1
University of California
Co-authored papers 1
Center for Future Medical Research, Tokyo Medical University
Co-authored papers 1
Schrodinger Inc.
Co-authored papers 1