Michael Z. Lin

Affiliations: 
Stanford University, Palo Alto, CA 
Area:
Protein engineering applied to visualizing and controlling signal transduction
Website:
linlab.stanford.edu
Google:
"Michael Z. Lin"
Bio:

Associate Professor as of 2017

Mean distance: 14.11 (cluster 11)
 
SNBCP
Cross-listing: Chemistry Tree

Parents

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Michael E. Greenberg grad student 1996-2002 Harvard
 (EphA regulation of Rho GTPases through the exchange factor ephexin during axon guidance.)
Roger Y. Tsien post-doc 2004-2009 UCSD (Chemistry Tree)

Children

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Xiaozhe Ding research assistant 2013-2013 Caltech
Linlin Z. Fan research assistant 2012-2014 MIT (Chemistry Tree)
Jihye Seong post-doc 2013-2013 Seoul National University School of Medicine
Hyokeun Park post-doc 2014-2014 HKUST (Chemistry Tree)
Jun Chu post-doc 2010-2015 Shenzhen Institute of Advanced Technology (SIAT), Chinese Academy of Sciences
François St-Pierre post-doc 2013-2017 Baylor College of Medicine and Rice University
Namdoo Kim post-doc 2014-2018 Kongju National University
Yichi SU post-doc 2018-2023 Stanford (Chemistry Tree)
Michael Westberg post-doc 2019-2023 Aarhus University

Collaborators

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Jayeeta Basu collaborator
Clive R Bramham collaborator
Lu Chen collaborator
Thomas Clandinin collaborator
Hyung Joon Kim collaborator UC Irvine
Douglas S. Kim collaborator
Ryohei Yasuda collaborator
Tal Laviv collaborator 2014-
BETA: Related publications

Publications

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Hao YA, Lee S, Roth RH, et al. (2024) A fast and responsive voltage indicator with enhanced sensitivity for unitary synaptic events. Neuron
Westberg M, Su Y, Zou X, et al. (2024) An orally bioavailable SARS-CoV-2 main protease inhibitor exhibits improved affinity and reduced sensitivity to mutations. Science Translational Medicine. 16: eadi0979
Westberg M, Song D, Duong V, et al. (2023) Photoswitchable binders enable temporal dissection of endogenous protein function. Biorxiv : the Preprint Server For Biology
Evans SW, Shi DQ, Chavarha M, et al. (2023) A positively tuned voltage indicator for extended electrical recordings in the brain. Nature Methods. 20: 1104-1113
Wu Y, Walker JR, Westberg M, et al. (2023) Kinase-Modulated Bioluminescent Indicators Enable Noninvasive Imaging of Drug Activity in the Brain. Acs Central Science. 9: 719-732
Su Y, Walker JR, Hall MP, et al. (2023) An optimized bioluminescent substrate for non-invasive imaging in the brain. Nature Chemical Biology
Ning L, Geng Y, Lovett-Barron M, et al. (2022) A Bright, Nontoxic, and Non-aggregating red Fluorescent Protein for Long-Term Labeling of Fine Structures in Neurons. Frontiers in Cell and Developmental Biology. 10: 893468
Ju J, Lee HN, Ning L, et al. (2022) Optical regulation of endogenous RhoA reveals selection of cellular responses by signal amplitude. Cell Reports. 40: 111080
Kim BB, Wu H, Hao YA, et al. (2022) A red fluorescent protein with improved monomericity enables ratiometric voltage imaging with ASAP3. Scientific Reports. 12: 3678
Bajar BT, Guan X, Lam A, et al. (2022) FRET Imaging of Rho GTPase Activity with Red Fluorescent Protein-Based FRET Pairs. Methods in Molecular Biology (Clifton, N.J.). 2438: 31-43
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