Curated Optogenetic Publication Database

Search precisely and efficiently by using the advantage of the hand-assigned publication tags that allow you to search for papers involving a specific trait, e.g. a particular optogenetic switch or a host organism.

Showing 1 - 2 of 2 results
1.

Engineering a photoactivated caspase-7 for rapid induction of apoptosis.

blue AsLOV2 CHO Cos-7 HEK293 HeLa NIH/3T3 Cell death
ACS Synth Biol, 4 Nov 2011 DOI: 10.1021/sb200008j Link to full text
Abstract: Apoptosis is a cell death program involved in the development of multicellular organisms, immunity, and pathologies ranging from cancer to HIV/AIDS. We present an engineered protein that causes rapid apoptosis of targeted cells in monolayer culture after stimulation with blue light. Cells transfected with the protein switch L57V, a tandem fusion of the light-sensing LOV2 domain and the apoptosis-executing domain from caspase-7, rapidly undergo apoptosis within 60 min after light stimulation. Constant illumination of under 5 min or oscillating with 1 min exposure had no effect, suggesting that cells have natural tolerance to a short duration of caspase-7 activity. Furthermore, the overexpression of Bcl-2 prevented L57V-mediated apoptosis, suggesting that although caspase-7 activation is sufficient to start apoptosis, it requires mitochondrial contribution to fully commit.
2.

A synthetic photoactivated protein to generate local or global Ca(2+) signals.

blue AsLOV2 Cos-7 HEK293 HeLa NIH/3T3 Immediate control of second messengers
Chem Biol, 29 Jul 2011 DOI: 10.1016/j.chembiol.2011.04.014 Link to full text
Abstract: Ca(2+) signals regulate diverse physiological processes through tightly regulated fluxes varying in location, time, frequency, and amplitude. Here, we developed LOVS1K, a genetically encoded and photoactivated synthetic protein to generate local or global Ca(2+) signals. With 300 ms blue light exposure, LOVS1K translocated to Orai1, a plasma membrane Ca(2+) channel, within seconds, generating a local Ca(2+) signal on the plasma membrane, and returning to the cytoplasm after tens of seconds. With repeated photoactivation, global Ca(2+) signals in the cytoplasm were generated to modulate engineered Ca(2+)-inducible proteins. Although Orai1 is typically associated with global store-operated Ca(2+) entry, we demonstrate that Orai1 can also generate local Ca(2+) influx on the plasma membrane. Our photoactivation system can be used to generate spatially and temporally precise Ca(2+) signals and to engineer synthetic proteins that respond to specific Ca(2+) signals.
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