Increased selectivity requires competition and nonlinear activation function in pyramidal cells.

Increased selectivity requires competition and nonlinear activation function in pyramidal cells.

<p><b>A)</b> Illustration of the circuit model. Light gray triangles denote excitatory pyramidal populations, circles denote inhibitory populations. Excitatory populations inhibit each other via local interneurons (dark gray) and receive additional inhibition from PV cells (red). T...

ver descrição completa

Na minha lista:
Detalhes bibliográficos
Autor principal: Lilia Kukovska (22683586) (author)
Outros Autores: Katharina A. Wilmes (22683589) (author), Natsumi Y. Homma (22683592) (author), Claudia Clopath (324706) (author), Jasper Poort (22683595) (author)
Publicado em: 2025
Assuntos:
Biochemistry
Neuroscience
Developmental Biology
Science Policy
Mental Health
Biological Sciences not elsewhere classified
xlink "> inhibition
three major factors
strong competitive interactions
photon imaging showed
balanced cortical activity
primary visual cortex
sustained v1 activity
combined optogenetic activation
v1 cells captured
moderate pv activation
moderate activation
visual discriminations
expressing cells
nonlinear activation
dependent activation
activation strength
task difficulty
stimulus onset
perceptual discrimination
difficult discriminations
delineates conditions
circuit model
behavioral effects
Tags: Adicionar Tag
Sem tags, seja o primeiro a adicionar uma tag!

Registos relacionados

Registos relacionados