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Simon Wiegert","affiliation":"University of Heidelberg"},{"auth_name":"Ofer Yizhar","affiliation":"Weizmann Institute of Science"}],"session_date":"4","poster_board_id":"467","session_id":"4","abstract":"$18","doi":null,"url_link":"https://www.world-wide.org/fens-24/bistable-inhibitory-optogpcr-multiplexed-d94f827c","similar_abstracts":[{"abstract_id":3274,"title":"Cell-specific simultaneous optogenetic stimulation and inhibition utilizing dual-color striped organic LEDs","authors_mini":"Jens Weber, Giuseppe Ciccone, ..., Caroline Murawski","url_link":"https://www.world-wide.org/fens-24/cell-specific-simultaneous-optogenetic-8213a95e","nexus":"$19"},{"abstract_id":4579,"title":"K-BiPOLES: The next generation of bidirectional optogenetic actuators","authors_mini":"Niklas Meyer, Linda Tillert, ..., Johannes Vierock","url_link":"https://www.world-wide.org/fens-24/k-bipoles-next-generation-bidirectional-9b7fc204","nexus":"

Common Ground: Both studies aim to enhance optogenetic tools for precise neural circuit modulation.
Key Differences: The current study uses the PdCO opsin for bistable GPCR-mediated inhibition, while the recommended study introduces K-BIPOLES for bidirectional control using K+-selective channelrhodopsins.
Methodologies: The current study utilizes optogenetic actuators and spectral multiplexing in mammalian neurons. The recommended study employs light-gated potassium channels for bidirectional neural control.
Complementary Aspects: PdCO provides high temporal precision for inhibition, while K-BIPOLES offer both activation and inhibition, enhancing versatility in optogenetic studies.
Potential Impact: Combining these tools could allow more refined, reversible control over neural circuits in complex behaviors.\n

"},{"abstract_id":3362,"title":"Brain bioluminolysis of a G protein-coupled receptor photodrug","authors_mini":"Glòria Salort Flaquer, Marc López-Cano, ..., Francisco Ciruela","url_link":"https://www.world-wide.org/fens-24/brain-bioluminolysis-protein-coupled-3334de4f","nexus":"$1a"},{"abstract_id":2488,"title":"Photopharmacological control of GABAergic neurotransmission","authors_mini":"Galyna Malieieva, Karin Rustler, ..., Pau Gorostiza","url_link":"https://www.world-wide.org/fens-24/photopharmacological-control-gabaergic-23d16152","nexus":"$1b"},{"abstract_id":1828,"title":"Optogenetic manipulations of cortico-pallidal pathway impact specific aspects of motor behaviour in mice","authors_mini":"Abdel-Mouttalib Ouagazzal, Sonia Di Bisceglie Caballero, ..., Marianne Amalric","url_link":"https://www.world-wide.org/fens-24/optogenetic-manipulations-cortico-pallidal-0714f3f6","nexus":"

Common Ground: Both studies use optogenetics to investigate neural circuits and their role in behavior.
Key Differences: Current study introduces a new bistable opsin (PdCO) for multiplexed control in neurons; recommended study focuses on behavioral outcomes from cortico-pallidal pathway manipulations.
Methodologies: Current study examines PdCO in mammalian neurons using light-activated GPCR techniques; recommended study employs ChR2(H134) and iC++ to modify mouse behavior via specific neural pathways.
Complementary Aspects: Current study's opsin (PdCO) could enhance spatiotemporal resolution in future studies similar to the recommended study's behavioral focus on the cortico-pallidal pathway.
Potential Impact: Combining advanced optogenetic tools might dramatically improve circuit-specific behavior analysis in neural research.

"},{"abstract_id":4609,"title":"Three-photon infrared stimulation of endogenous neuroreceptors in vivo","authors_mini":"Rosalba Sortino, Marina Cunquero, ..., Pau Gorostiza","url_link":"https://www.world-wide.org/fens-24/three-photon-infrared-stimulation-endogenous-a1bbe76b","nexus":"$1c"},{"abstract_id":1369,"title":"Probing neural circuit motifs in zebrafish using holographic optogenetics","authors_mini":"Rahul Trivedi, Jennifer Li, Drew Robson","url_link":"https://www.world-wide.org/fens-24/probing-neural-circuit-motifs-zebrafish-4c260f14","nexus":"$1d"},{"abstract_id":2362,"title":"AAV-compatible optogenetic tools for activating endogenous calcium channels in vivo","authors_mini":"Yeon Hee Kook, Hyoin Lee, ..., Sangkyu Lee","url_link":"https://www.world-wide.org/fens-24/aav-compatible-optogenetic-tools-activating-60d0d33e","nexus":"$1e"},{"abstract_id":1714,"title":"Ultrafast two-photon all-optical interrogation of neural circuits with acousto-optic deflectors","authors_mini":"Matteo Pisoni, Yannick Goulam Houssen, ..., Brice Bathellier","url_link":"https://www.world-wide.org/fens-24/ultrafast-two-photon-all-optical-interrogation-ecc0a1e2","nexus":"$1f"}],"apa_citation":null},"legacy_data":null,"abstract":"$20","doi":null,"conference_name":"FENS Forum 2024","conference_slug":"fens-24","conference_domain_slug":"neuro","conference_location":"Messe Wien Exhibition & Congress Center, Vienna, Austria","conference_website":"https://www.fensforum.org","conference_year":"2024","authors_data":[],"media_files":[]},"shareUrl":"https://world-wide.org/eposter/fens-24/bistable-inhibitory-optogpcr-multiplexed-6ts92yb1","shareText":"Information is transmitted between brain regions through the release of neurotransmitters from long range projecting axons. Understanding how the activity of such long-range connections contributes to..."}],"$L21","$L22"]}]

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