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.

Protein supersaturation powers innate immune signaling.

blue CRY2clust HEK293T THP-1 Cell death
bioRxiv, 3 Mar 2024 DOI: 10.1101/2023.03.20.533581 Link to full text
Abstract: Innate immunity protects us in youth but turns against us as we age. The reason for this tradeoff is unclear. Seeking a thermodynamic basis, we focused on death fold domains (DFDs), whose ordered polymerization has been stoichiometrically linked to innate immune signal amplification. We hypothesized that soluble ensembles of DFDs function as phase change batteries that store energy via supersaturation and subsequently release it through nucleated polymerization. Using imaging and FRET-based cytometry to characterize the phase behaviors of all 109 human DFDs, we found that the hubs of innate immune signaling networks encode large nucleation barriers that are intrinsically insulated from cross-pathway activation. We showed via optogenetics that supersaturation drives signal amplification and that the inflammasome is constitutively supersaturated in vivo. Our findings reveal that the soluble “inactive” states of adaptor DFDs function as essential, yet impermanent, kinetic barriers to inflammatory cell death, suggesting a thermodynamic driving force for aging.
2.

Engineering Supramolecular Organizing Centers for Optogenetic Control of Innate Immune Responses.

blue CRY2/CRY2 LOVTRAP HEK293T HeLa RAW264.7 THP-1
Adv Biol, 30 Dec 2020 DOI: 10.1002/adbi.202000147 Link to full text
Abstract: The spatiotemporal organization of oligomeric protein complexes, such as the supramolecular organizing centers (SMOCs) made of MyDDosome and MAVSome, is essential for transcriptional activation of host inflammatory responses and immunometabolism. Light‐inducible assembly of MyDDosome and MAVSome is presented herein to induce activation of nuclear factor‐kB and type‐I interferons. Engineering of SMOCs and the downstream transcription factor permits programmable and customized innate immune operations in a light‐dependent manner. These synthetic molecular tools will likely enable optical and user‐defined modulation of innate immunity at a high spatiotemporal resolution to facilitate mechanistic studies of distinct modes of innate immune activations and potential intervention of immune disorders and cancer.
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