A simple optogenetic MAPK inhibitor design reveals resonance between transcription-regulating circuitry and temporally-encoded inputs

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dc.contributor.authorde Mera RMMF
dc.contributor.authorLi LL
dc.contributor.authorPopinigis A
dc.contributor.authorCisek K
dc.contributor.authorTuittila M
dc.contributor.authorYadav L
dc.contributor.authorServa A
dc.contributor.authorCourtney MJ
dc.contributor.organizationfi=JBL-laboratorio|en=Joint Biotechnology Laboratory (JBL)|
dc.contributor.organizationfi=Turun biotiedekeskus|en=Turku Bioscience Centre|
dc.contributor.organization-code1.2.246.10.2458963.20.18586209670
dc.contributor.organization-code1.2.246.10.2458963.20.53708885453
dc.contributor.organization-code2609201
dc.converis.publication-id24961009
dc.converis.urlhttps://research.utu.fi/converis/portal/Publication/24961009
dc.date.accessioned2022-10-28T13:57:06Z
dc.date.available2022-10-28T13:57:06Z
dc.description.abstractEngineering light-sensitive protein regulators has been a tremendous multidisciplinary challenge. Optogenetic regulators of MAPKs, central nodes of cellular regulation, have not previously been described. Here we present OptoJNKi, a light-regulated JNK inhibitor based on the AsLOV2 light-sensor domain using the ubiquitous FMN chromophore. OptoJNKi genetransfer allows optogenetic applications, whereas protein delivery allows optopharmacology. Development of OptoJNKi suggests a design principle for other optically regulated inhibitors. From this, we generate Optop38i, which inhibits p38MAPK in intact illuminated cells. Neurons are known for interpreting temporally-encoded inputs via interplay between ion channels, membrane potential and intracellular calcium. However, the consequences of temporal variation of JNK-regulating trophic inputs, potentially resulting from synaptic activity and reversible cellular protrusions, on downstream targets are unknown. Using OptoJNKi, we reveal maximal regulation of c-Jun transactivation can occur at unexpectedly slow periodicities of inhibition depending on the inhibitor's subcellular location. This provides evidence for resonance in metazoan JNK-signalling circuits.
dc.identifier.eissn2041-1723
dc.identifier.jour-issn2041-1723
dc.identifier.olddbid185387
dc.identifier.oldhandle10024/168481
dc.identifier.urihttps://www.utupub.fi/handle/11111/42162
dc.identifier.urlhttp://www.nature.com/articles/ncomms15017
dc.identifier.urnURN:NBN:fi-fe2021042716942
dc.language.isoen
dc.okm.affiliatedauthorLi, Lili
dc.okm.affiliatedauthorPopinigis, Arkadiusz
dc.okm.affiliatedauthorTuittila, Minna
dc.okm.affiliatedauthorCourtney, Michael
dc.okm.discipline1182 Biochemistry, cell and molecular biologyen_GB
dc.okm.discipline222 Other engineering and technologiesen_GB
dc.okm.discipline3111 Biomedicineen_GB
dc.okm.discipline3112 Neurosciencesen_GB
dc.okm.discipline1182 Biokemia, solu- ja molekyylibiologiafi_FI
dc.okm.discipline222 Muu tekniikkafi_FI
dc.okm.discipline3111 Biolääketieteetfi_FI
dc.okm.discipline3112 Neurotieteetfi_FI
dc.okm.internationalcopublicationnot an international co-publication
dc.okm.internationalityInternational publication
dc.okm.typeA1 ScientificArticle
dc.publisherNATURE PUBLISHING GROUP
dc.relation.articlenumberARTN 15017
dc.relation.doi10.1038/ncomms15017
dc.relation.ispartofjournalNature Communications
dc.relation.volume8
dc.source.identifierhttps://www.utupub.fi/handle/10024/168481
dc.titleA simple optogenetic MAPK inhibitor design reveals resonance between transcription-regulating circuitry and temporally-encoded inputs
dc.year.issued2017

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