15 results filtered with: Magenta
- Digital Images
- Online
Dorsal view of zebrafish brain (4 day-post fertilization)
Anya Suppermpool, Rihel lab/ Wilson lab, University College London
- Digital Images
- Online
Transverse section of brain and eyes, Zebrafish model
Leo Valdivia, Dr Steve Wilson
- Digital Images
- Online
Retina development, composition
Leo Valdivia, Dr Steve Wilson
- Digital Images
- Online
GABAergic and Glutamatergic neurons in the zebrafish brain
Kate Turner, Dr Steve Wilson
- Digital Images
- Online
Dopaminergic neurons in the zebrafish forebrain. Confocal micrograph of a 4 day old transgenic zebrafish embryo viewed from a lateral aspect. Neurons in the olfactory bulb, telencepahlon, ventral diencephalon, pretectum and hypothalamus are labelled in green. Axonal tracts are shown in cyan and neuropil in magenta. In order to show the anatomy of the brain better the skin and eyes of the embryo have been removed post-fixation.
Kate Turner, Dr Steve Wilson
- Digital Images
- Online
Brain development, zebrafish
Ingrid Lekk, Dr Steve Wilson
- Digital Images
- Online
Transverse section through mouse soleus muscle
James N. Sleigh
- Digital Images
- Online
Glutamatergic neurons in telencephalon, zebrafish
Kate Turner, Dr Steve Wilson
- Digital Images
- Online
GABAergic and Glutamatergic neurons in the zebrafish brain
Kate Turner, Dr Steve Wilson
- Digital Images
- Online
Zebrafish mechanosensory neuron
Kate Turner, Dr Steve Wilson
- Digital Images
- Online
Habenular nucleus of zebrafish, composition
Ana Faro, Dr Steve Wilson
- Digital Images
- Online
Axonal tracts and neuropil in zebrafish embryo
Kate Turner, Dr Steve Wilson
- Digital Images
- Online
Habenular nucleus of zebrafish
Ana Faro, Tom Hawkins and Dr Steve Wilson
- Digital Images
- Online
Glutamatergic neurons in the zebrafish forebrain
Kate Turner, Dr Steve Wilson
- Digital Images
- Online
Habenular nucleus, zebrafish
Ana Faro, Dr Steve Wilson