Ancestral circuits for vertebrate color vision emerge at the first retinal synapse
For color vision, retinal circuits separate information about intensity and wavelength. In
vertebrates that use the full complement of four “ancestral” cone types, the nature and …
vertebrates that use the full complement of four “ancestral” cone types, the nature and …
[PDF][PDF] Ancestral circuits for vertebrate color vision emerge at the first retinal synapse
T Yoshimatsu, P Bartel, C Schröder, FK Janiak… - 2021 - pdfs.semanticscholar.org
For color vision, retinal circuits separate information about intensity and wavelength. In
vertebrates that use the full complement of four “ancestral” cone types, the nature and …
vertebrates that use the full complement of four “ancestral” cone types, the nature and …
[引用][C] Ancestral circuits for vertebrate color vision emerge at the first retinal synapse
T Yoshimatsu, P Bartel, C Schroeder… - Science …, 2021 - ub01.uni-tuebingen.de
Ancestral circuits for vertebrate color vision emerge at the first retinal synapse Ancestral
circuits for vertebrate color vision emerge at the first retinal synapse DSpace Repositorium (Manakin …
circuits for vertebrate color vision emerge at the first retinal synapse DSpace Repositorium (Manakin …
Ancestral circuits for vertebrate color vision emerge at the first retinal synapse
T Yoshimatsu, P Bartel, C Schröder… - Science …, 2021 - pubmed.ncbi.nlm.nih.gov
For color vision, retinal circuits separate information about intensity and wavelength. In
vertebrates that use the full complement of four “ancestral” cone types, the nature and …
vertebrates that use the full complement of four “ancestral” cone types, the nature and …
[PDF][PDF] Ancestral circuits for vertebrate colour vision emerge at the first retinal synapse 2
T Yoshimatsu, P Bartel, C Schröder, FK Janiak, F St - academia.edu
For colour vision, retinal circuits separate information about intensity and 6 wavelength. This
requires comparison of at least two spectrally distinct 7 photoreceptors, as in the case of …
requires comparison of at least two spectrally distinct 7 photoreceptors, as in the case of …
[引用][C] Ancestral circuits for vertebrate color vision emerge at the first retinal synapse
T Yoshimatsu, P Bartel, C Schröder… - Science …, 2021 - ui.adsabs.harvard.edu
Ancestral circuits for vertebrate color vision emerge at the first retinal synapse - NASA/ADS
Now on home page ads icon ads Enable full ADS view NASA/ADS Ancestral circuits for …
Now on home page ads icon ads Enable full ADS view NASA/ADS Ancestral circuits for …
[HTML][HTML] Ancestral circuits for vertebrate color vision emerge at the first retinal synapse
T Yoshimatsu, P Bartel, C Schröder, FK Janiak… - Science …, 2021 - ncbi.nlm.nih.gov
For color vision, retinal circuits separate information about intensity and wavelength. In
vertebrates that use the full complement of four “ancestral” cone types, the nature and …
vertebrates that use the full complement of four “ancestral” cone types, the nature and …
Ancestral circuits for vertebrate color vision emerge at the first retinal synapse
T Yoshimatsu, P Bartel, C Schröder, FK Janiak… - Science …, 2021 - retina-hub.org
In vivo recordings of cone photoreceptor outputs in a tetrachromate reveal efficient ancestral
strategy for color processing., For color vision, retinal circuits separate information about …
strategy for color processing., For color vision, retinal circuits separate information about …
[引用][C] Ancestral circuits for vertebrate colour vision emerge at the first retinal synapse
T Yoshimatsu - bioRxiv, 2021 - cir.nii.ac.jp
Ancestral circuits for vertebrate color vision emerge at the first retinal synapse
T Yoshimatsu, P Bartel, C Schröder, FK Janiak… - Science …, 2021 - profiles.wustl.edu
For color vision, retinal circuits separate information about intensity and wavelength. In
vertebrates that use the full complement of four “ancestral” cone types, the nature and …
vertebrates that use the full complement of four “ancestral” cone types, the nature and …