User profiles for Lauren E. Wool
Lauren E. WoolUniversity College London Verified email at ucl.ac.uk Cited by 440 |
[PDF][PDF] High-yield methods for accurate two-alternative visual psychophysics in head-fixed mice
Research in neuroscience increasingly relies on the mouse, a mammalian species that affords
unparalleled genetic tractability and brain atlases. Here, we introduce high-yield methods …
unparalleled genetic tractability and brain atlases. Here, we introduce high-yield methods …
Standardized and reproducible measurement of decision-making in mice
Progress in science requires standardized assays whose results can be readily shared,
compared, and reproduced across laboratories. Reproducibility, however, has been a concern …
compared, and reproduced across laboratories. Reproducibility, however, has been a concern …
[HTML][HTML] Standardized and reproducible measurement of decision-making in mice
Progress in science requires standardized assays whose results can be readily shared,
compared, and reproduced across laboratories. Reproducibility, however, has been a concern …
compared, and reproduced across laboratories. Reproducibility, however, has been a concern …
Nonselective wiring accounts for red-green opponency in midget ganglion cells of the primate retina
In primate retina, “red-green” color coding is initiated when signals originating in long (L) and
middle (M) wavelength-sensitive cone photoreceptors interact antagonistically. The center-…
middle (M) wavelength-sensitive cone photoreceptors interact antagonistically. The center-…
[HTML][HTML] Salience of unique hues and implications for color theory
The unique hues—blue, green, yellow, red—form the fundamental dimensions of opponent-color
theories, are considered universal across languages, and provide useful mental …
theories, are considered universal across languages, and provide useful mental …
Connectomic identification and three-dimensional color tuning of S-OFF midget ganglion cells in the primate retina
In the trichromatic primate retina, the “midget” retinal ganglion cell is the classical substrate
for red–green color signaling, with a circuitry that enables antagonistic responses between …
for red–green color signaling, with a circuitry that enables antagonistic responses between …
[HTML][HTML] Knowledge across networks: how to build a global neuroscience collaboration
LE Wool, TIB Laboratory - Current Opinion in Neurobiology, 2020 - Elsevier
Highlights • The International Brain Laboratory (IBL) is a distributed network of neuroscientists
studying decision-making and the brain • IBL researchers (postdocs, students, staff) are …
studying decision-making and the brain • IBL researchers (postdocs, students, staff) are …
Mouse frontal cortex nonlinearly encodes sensory, choice and outcome signals
Frontal area MOs (secondary motor area) is a key brain structure in rodents for making
decisions based on sensory evidence and on reward value. In behavioral tasks, its neurons can …
decisions based on sensory evidence and on reward value. In behavioral tasks, its neurons can …
[PDF][PDF] Short-wavelength cone signals contribute to sparse, high-dimensional color tuning in primate OFF midget ganglion cells
Primate midget retinal ganglion cells are generally considered the substrate for ‘red-green’color
10 signaling and selective for long (L)-and medium (M)-wavelength cone inputs, but …
10 signaling and selective for long (L)-and medium (M)-wavelength cone inputs, but …
Selective wiring is not needed for color opponency in midget ganglion cells
Purpose: Biologists have been reticent to embrace a theory of retinal red-green color
opponency predicated on random connections. The claim for selective circuitry is based on the …
opponency predicated on random connections. The claim for selective circuitry is based on the …