{"database":"biostudies-other","file_versions":[],"scores":null,"additional":{"omics_type":["Unknown"],"volume":["8"],"submitter":["Johannes Dietter"],"journal":["Nature communications"],"pagination":["1813"],"full_dataset_link":["https://www.ebi.ac.uk/biostudies/studies/MODEL1710030000"],"repository":["biostudies-other"],"additional_accession":["29180667"],"pubmed_authors":["Johannes Dietter"]},"is_claimable":false,"name":"Tikidji-Hamburyan2018 - Rod phototransduction under strong illumination","description":"<notes xmlns=\"http://www.sbml.org/sbml/level2/version4\">      <body xmlns=\"http://www.w3.org/1999/xhtml\">        <div class=\"dc:title\">Tikidji-Hamburyan2018 - Rod phototransductionunder strong illumination</div><div class=\"dc:bibliographicCitation\">  <p>This model is described in the article:</p>  <div class=\"bibo:title\">    <a href=\"http://identifiers.org/pubmed/29180667\" title=\"Access to this publication\">Rods progressively escape    saturation to drive visual responses in daylight    conditions.</a>  </div>  <div class=\"bibo:authorList\">Tikidji-Hamburyan A, Reinhard K,  Storchi R, Dietter J, Seitter H, Davis KE, Idrees S, Mutter M,  Walmsley L, Bedford RA, Ueffing M, Ala-Laurila P, Brown TM, Lucas  RJ, Münch TA.</div>  <div class=\"bibo:Journal\">Nat Commun 2017 Nov; 8(1): 1813</div>  <p>Abstract:</p>  <div class=\"bibo:abstract\">    <p>Rod and cone photoreceptors support vision across large    light intensity ranges. Rods, active under dim illumination,    are thought to saturate at higher (photopic) irradiances. The    extent of rod saturation is not well defined; some studies    report rod activity well into the photopic range. Using    electrophysiological recordings from retina and dorsal lateral    geniculate nucleus of cone-deficient and visually intact mice,    we describe stimulus and physiological factors that influence    photopic rod-driven responses. We find that rod contrast    sensitivity is initially strongly reduced at high irradiances,    but progressively recovers to allow responses to moderate    contrast stimuli. Surprisingly, rods recover faster at higher    light levels. A model of rod phototransduction suggests that    phototransduction gain adjustments and bleaching adaptation    underlie rod recovery. Consistently, exogenous chromophore    reduces rod responses at bright background. Thus, bleaching    adaptation renders mouse rods responsive to modest contrast at    any irradiance. Paradoxically, raising irradiance across the    photopic range increases the robustness of rod responses.</p>  </div></div><div class=\"dc:publisher\">  <p>This model is hosted on   <a href=\"http://www.ebi.ac.uk/biomodels/\">BioModels Database</a>  and identified by:   <a href=\"http://identifiers.org/biomodels.db/MODEL1710030000\">MODEL1710030000</a>.</p>  <p>To cite BioModels Database, please use:   <a href=\"http://identifiers.org/pubmed/25414348\" target=\"_blank\">Chelliah V et al. BioModels: ten-year  anniversary. Nucl. Acids Res. 2015, 43(Database  issue):D542-8</a>.</p></div><div class=\"dc:license\">  <p>To the extent possible under law, all copyright and related or  neighbouring rights to this encoded model have been dedicated to  the public domain worldwide. Please refer to   <a href=\"http://creativecommons.org/publicdomain/zero/1.0/\" title=\"Access to: CC0 1.0 Universal (CC0 1.0), Public Domain Dedication\">CC0  Public Domain Dedication</a> for more information.</p></div></body>    </notes>","dates":{"release":"2017-10-03T00:00:00Z","modification":"2025-07-14T17:53:54.401Z","creation":"2025-03-30T22:41:09.893Z"},"accession":"MODEL1710030000","cross_references":{"pubmed":["29180667"],"mamo":["MAMO_0000046"]}}