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Keywords: Teleost
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Journal Articles
Brain Behav Evol (2022) 97 (6): 321–335.
Published Online: 27 June 2022
... develops through a distinct outward-growing process called eversion. To this day, scientists have struggled to determine how the everted telencephalon compares to non-actinopterygian vertebrates. Using the teleost zebrafish as a genetic model, comparative neurologists began to establish quantifiable...
Journal Articles
Journal Articles
Journal Articles
Brain Behav Evol (2017) 89 (3): 153–161.
Published Online: 28 April 2017
... of familiarity. Our results implicate IT in mediating social habituation in a teleost. [email protected] 9 08 2016 14 02 2017 28 4 2017 © 2017 S. Karger AG, Basel 2017 Copyright / Drug Dosage / Disclaimer Copyright: All rights reserved. No part of this publication may be translated...
Journal Articles
Brain Behav Evol (2015) 86 (3-4): 164–175.
Published Online: 28 November 2015
... receptor Phylogeny Evolution Gene duplication Gene loss Vertebrates Osteichthyes Tetrapod Teleost The pharmacological characterization of D 1 family dopamine receptors does not necessarily fit with the phylogenetic relationships. As described above, the avian D 1C was misidentified as ‘D...
Journal Articles
Journal Articles
Brain Behav Evol (2015) 85 (4): 257–270.
Published Online: 15 July 2015
...Yuji Ishikawa; Keiji Inohaya; Naoyuki Yamamoto; Kouichi Maruyama; Masami Yoshimoto; Masayuki Iigo; Tadashi Oishi; Akira Kudo; Hironobu Ito The parapineal is present in many teleost families, while it is absent in several others. To find out why the parapineal is absent at adult stages in the latter...
Journal Articles
Brain Behav Evol (2014) 84 (4): 262–276.
Published Online: 12 November 2014
... visually acute groups of deep-sea teleosts. The diversity in retinal specializations and spatial resolving power within the family is assessed in terms of possible ecological functions and evolutionary history. [email protected] 29 04 2014 16 07 2014 12 11 2014 © 2014 S...
Journal Articles
Brain Behav Evol (2014) 84 (1): 31–50.
Published Online: 14 August 2014
... responsibility for any injury to persons or property resulting from any ideas, methods, instructions or products referred to in the content or advertisements. Neuroanatomy Forebrain Teleost Immunohistochemistry Behavior Chaetodontidae Our understanding of the neural regulation...
Journal Articles
Brain Behav Evol (2014) 83 (1): 31–42.
Published Online: 03 January 2014
... substantially larger (7.75 and 3.4 cycles·degree -1 for the photoreceptor cells and ganglion cells, respectively) than the level of acuity indicated by the behavioural tests. This indicates that in this teleost species spatial resolution is poor compared to humans (30-70 cycles·degree -1 ) and it is also...
Journal Articles
Brain Behav Evol (2013) 82 (1): 31–44.
Published Online: 21 August 2013
...Leo S. Demski Three interrelated pallial areas mediate behaviors reflective of the cognitive and emotional aspects of the teleost mind. The dorsocentral area (Dc) has specific associations with both of the other pallial areas and projects to major lower sensorimotor centers. While Dc generally...
Journal Articles
Journal Articles
Brain Behav Evol (2007) 68 (4): 241–254.
Published Online: 22 February 2012
... Cone Photoreceptor Mosaic Teleost A major issue facing developmental biologists is how undifferentiated cells give rise to adult patterns with multiple different cell types. Retinal development has been a focus for studies on cell differentiation because photoreceptors form precise arrays...
Journal Articles
Journal Articles
Brain Behav Evol (2010) 75 (4): 292–308.
Published Online: 06 August 2010
.... Eco-morphology Interspecific divergence Lateral line Mechanosensory Neuromasts Teleost Tripterygiidae The mechanosensory lateral line system is a hydrodynamic sense that is ubiquitous among fishes and aquatic amphibians. The lateral line system comprises an array of sensory structures...
Journal Articles
Brain Behav Evol (1990) 36 (6): 342–354.
Published Online: 02 June 2010
... to the nucleus of the same name in gymnotoid teleosts, but it appears to have no homologue in the diencephalon of goldfish. An analysis of interspecific variation in the diencephalon among catfishes, goldfish and several other teleosts reveals that some areas of the diencephalon are more variable across species...
Journal Articles
Brain Behav Evol (1991) 38 (2-3): 105–114.
Published Online: 02 June 2010
...Ann B. Butler; Mario F. Wullimann; R. Glenn Northcutt The posterior pretectal nucleus, which in Osteoglossum receives second order visual input and projects to the inferior lobe of the hypothalamus, was identified and characterized in species from all major groups of non-neoteleost teleosts...
Journal Articles
Journal Articles
Brain Behav Evol (1991) 37 (6): 344–354.
Published Online: 02 June 2010
..., instructions or products referred to in the content or advertisements. Teleost Retinofugal projections Retinopetal projections Telencephalon Diencephalon Pretectum Tectum Homoplasy 344 Norihcutt/Butler connections of a variety of other systems [Wullimann, 1988; Wullimann and Northcutt, 1988...
Journal Articles
Brain Behav Evol (1990) 36 (5): 293–299.
Published Online: 02 June 2010
... Teleost Regeneration Pathfinding Specificity of regeneration Competition Ipsilatcral Rctinofugal Projections 293 projections have been described in a number of actinopterygian fish but only in some teleosts [for review, see von Bartheld and Meyer, 1987]. The detection of ipsilateral projections...