OPTOGENETICS REFERENCES

Light-based tuning of ligand half-life supports kinetic proofreading model of T cell activation.

Tischer D, Weiner OD.
eLife, 8: 42498 (2019).

A module for Rac temporal signal integration revealed with optogenetics.

Graziano BR, Gong D, Anderson KE, Pipathsouk A, Goldberg AR, Weiner OD.
J. Cell Biol., 216: 2515-2531 (2017).

TAEL: a zebrafish-optimized gene expression system with fine spatial and temporal control

Reade A, Motta-Mena LB, Stainier DY, Weiner OD#, Woo S#.
Development, 144: 345-355 (2017). (#corresponding author)

Reversible optogenetic control of subcellular protein localization in a live vertebrate embryo.

Buckley CE, Moore RE, Reade A, Goldberg A, Weiner OD#, Clarke JDW#
Developmental Cell, 36: 117-26 (2016). (#corresponding author)

Probing yeast polarity with acute, reversible, optogenetic inhibition of protein function.

Jost AP, Weiner OD.
ACS Synthetic Biology, 4: 1077-85 (2015). 

Illuminating cell signaling with optogenetic tools.

Tischer D, Weiner OD.
Nature Reviews Molecular and Cellular Biology, 15: 551-8 (2014).

Using optogenetics to interrogate the dynamic control of signal transmission by the Ras/Erk module.

Toettcher JE, Weiner OD#, Lim WA#.
Cell, 155: 1422-1434 (2013). (#corresponding author) 

Editor’s Choice, Science Signaling
Recommended by Faculty of 1000

Light-based feedback for controlling intracellular signaling dynamics.

Toettcher JE, Gong D, Lim WA, Weiner OD.
Nature Methods, 8: 837-9 (2011).

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