Off-response control (light to light).

(A, E, I, M, Q) White/White, (B, F, J, N, R) Blue/Blue, (C, G, K, O, S) Green/Green, (D, H, L, P, T) Red/Red. In general little or weaker expression of c-fos is detected in the controls. Scale bars 200 μm. (TIF)

Bibliographic Details
Main Authors:	Mariann Eilertsen (11502317), Benjamin G. J. Clokie (11502320), Lars O. E. Ebbesson (2622343), Cristina Tanase (11502323), Herve Migaud (308426), Jon Vidar Helvik (8028887)
Format:	Still Image
Language:	unknown
Published:	2021
Subjects:	Biophysics Cell Biology Molecular Biology Neuroscience Physiology Evolutionary Biology Immunology Developmental Biology Science Policy Mental Health vertebrate ancient opsin major receptive organs emitting diodes technology div >< p putative opsin stimulation potential direct activation lateral tuberal nuclus adapted salmon parr stimulated neuronal activity salmo salar </ photoreceptors expressing melanopsin light sensory organs melanopsin expressing cells specific brain regions similar brain regions photosensitive brain regions atlantic salmon (< following light stimulation deep brain photoreceptors brain neural activity activated following dark neuronal modulation activity overlapping expression patterns neural activity lateral cells deep brain atlantic salmon light stimulation neural activation nonvisual photoreceptors neuronal signals melanopsin expression teleost brain specifically activated salmon exposed situ </ fos </ red light visual world various parts suprachiasmatic nucleus study aimed strongest signal pineal organ pineal innervations photoreceptive inputs known presence known marker fish exposed expression increased either independent different wavelengths different spectra apparent difference 120 minutes Atlantic salmon Salmo salar
Online Access:	https://doi.org/10.1371/journal.pone.0258007.s003

id	ftsmithonian:oai:figshare.com:article/16701164
record_format	openpolar
spelling	ftsmithonian:oai:figshare.com:article/16701164 2023-05-15T15:31:09+02:00 Off-response control (light to light). Mariann Eilertsen (11502317) Benjamin G. J. Clokie (11502320) Lars O. E. Ebbesson (2622343) Cristina Tanase (11502323) Herve Migaud (308426) Jon Vidar Helvik (8028887) 2021-09-29T17:37:03Z https://doi.org/10.1371/journal.pone.0258007.s003 unknown https://figshare.com/articles/figure/Off-response_control_light_to_light_/16701164 doi:10.1371/journal.pone.0258007.s003 CC BY 4.0 CC-BY Biophysics Cell Biology Molecular Biology Neuroscience Physiology Evolutionary Biology Immunology Developmental Biology Science Policy Mental Health vertebrate ancient opsin major receptive organs emitting diodes technology div >< p putative opsin stimulation potential direct activation lateral tuberal nuclus adapted salmon parr stimulated neuronal activity salmo salar </ photoreceptors expressing melanopsin light sensory organs melanopsin expressing cells specific brain regions similar brain regions photosensitive brain regions atlantic salmon (< following light stimulation deep brain photoreceptors brain neural activity activated following dark neuronal modulation activity overlapping expression patterns neural activity lateral cells deep brain atlantic salmon light stimulation neural activation nonvisual photoreceptors neuronal signals melanopsin expression teleost brain specifically activated salmon exposed situ </ fos </ red light visual world various parts suprachiasmatic nucleus study aimed strongest signal pineal organ pineal innervations photoreceptive inputs known presence known marker fish exposed expression increased either independent different wavelengths different spectra apparent difference 120 minutes Image Figure 2021 ftsmithonian https://doi.org/10.1371/journal.pone.0258007.s003 2021-12-20T01:11:47Z (A, E, I, M, Q) White/White, (B, F, J, N, R) Blue/Blue, (C, G, K, O, S) Green/Green, (D, H, L, P, T) Red/Red. In general little or weaker expression of c-fos is detected in the controls. Scale bars 200 μm. (TIF) Still Image Atlantic salmon Salmo salar Unknown
institution	Open Polar
collection	Unknown
op_collection_id	ftsmithonian
language	unknown
topic	Biophysics Cell Biology Molecular Biology Neuroscience Physiology Evolutionary Biology Immunology Developmental Biology Science Policy Mental Health vertebrate ancient opsin major receptive organs emitting diodes technology div >< p putative opsin stimulation potential direct activation lateral tuberal nuclus adapted salmon parr stimulated neuronal activity salmo salar </ photoreceptors expressing melanopsin light sensory organs melanopsin expressing cells specific brain regions similar brain regions photosensitive brain regions atlantic salmon (< following light stimulation deep brain photoreceptors brain neural activity activated following dark neuronal modulation activity overlapping expression patterns neural activity lateral cells deep brain atlantic salmon light stimulation neural activation nonvisual photoreceptors neuronal signals melanopsin expression teleost brain specifically activated salmon exposed situ </ fos </ red light visual world various parts suprachiasmatic nucleus study aimed strongest signal pineal organ pineal innervations photoreceptive inputs known presence known marker fish exposed expression increased either independent different wavelengths different spectra apparent difference 120 minutes
spellingShingle	Biophysics Cell Biology Molecular Biology Neuroscience Physiology Evolutionary Biology Immunology Developmental Biology Science Policy Mental Health vertebrate ancient opsin major receptive organs emitting diodes technology div >< p putative opsin stimulation potential direct activation lateral tuberal nuclus adapted salmon parr stimulated neuronal activity salmo salar </ photoreceptors expressing melanopsin light sensory organs melanopsin expressing cells specific brain regions similar brain regions photosensitive brain regions atlantic salmon (< following light stimulation deep brain photoreceptors brain neural activity activated following dark neuronal modulation activity overlapping expression patterns neural activity lateral cells deep brain atlantic salmon light stimulation neural activation nonvisual photoreceptors neuronal signals melanopsin expression teleost brain specifically activated salmon exposed situ </ fos </ red light visual world various parts suprachiasmatic nucleus study aimed strongest signal pineal organ pineal innervations photoreceptive inputs known presence known marker fish exposed expression increased either independent different wavelengths different spectra apparent difference 120 minutes Mariann Eilertsen (11502317) Benjamin G. J. Clokie (11502320) Lars O. E. Ebbesson (2622343) Cristina Tanase (11502323) Herve Migaud (308426) Jon Vidar Helvik (8028887) Off-response control (light to light).
topic_facet	Biophysics Cell Biology Molecular Biology Neuroscience Physiology Evolutionary Biology Immunology Developmental Biology Science Policy Mental Health vertebrate ancient opsin major receptive organs emitting diodes technology div >< p putative opsin stimulation potential direct activation lateral tuberal nuclus adapted salmon parr stimulated neuronal activity salmo salar </ photoreceptors expressing melanopsin light sensory organs melanopsin expressing cells specific brain regions similar brain regions photosensitive brain regions atlantic salmon (< following light stimulation deep brain photoreceptors brain neural activity activated following dark neuronal modulation activity overlapping expression patterns neural activity lateral cells deep brain atlantic salmon light stimulation neural activation nonvisual photoreceptors neuronal signals melanopsin expression teleost brain specifically activated salmon exposed situ </ fos </ red light visual world various parts suprachiasmatic nucleus study aimed strongest signal pineal organ pineal innervations photoreceptive inputs known presence known marker fish exposed expression increased either independent different wavelengths different spectra apparent difference 120 minutes
description	(A, E, I, M, Q) White/White, (B, F, J, N, R) Blue/Blue, (C, G, K, O, S) Green/Green, (D, H, L, P, T) Red/Red. In general little or weaker expression of c-fos is detected in the controls. Scale bars 200 μm. (TIF)
format	Still Image
author	Mariann Eilertsen (11502317) Benjamin G. J. Clokie (11502320) Lars O. E. Ebbesson (2622343) Cristina Tanase (11502323) Herve Migaud (308426) Jon Vidar Helvik (8028887)
author_facet	Mariann Eilertsen (11502317) Benjamin G. J. Clokie (11502320) Lars O. E. Ebbesson (2622343) Cristina Tanase (11502323) Herve Migaud (308426) Jon Vidar Helvik (8028887)
author_sort	Mariann Eilertsen (11502317)
title	Off-response control (light to light).
title_short	Off-response control (light to light).
title_full	Off-response control (light to light).
title_fullStr	Off-response control (light to light).
title_full_unstemmed	Off-response control (light to light).
title_sort	off-response control (light to light).
publishDate	2021
url	https://doi.org/10.1371/journal.pone.0258007.s003
genre	Atlantic salmon Salmo salar
genre_facet	Atlantic salmon Salmo salar
op_relation	https://figshare.com/articles/figure/Off-response_control_light_to_light_/16701164 doi:10.1371/journal.pone.0258007.s003
op_rights	CC BY 4.0
op_rightsnorm	CC-BY
op_doi	https://doi.org/10.1371/journal.pone.0258007.s003
_version_	1766361648916856832

Off-response control (light to light).

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