ORDB: Neuron - Neocortex M1 L2/6 pyramidal intratelencephalic GLU cell

Neuron

Data

Name

Neocortex M1 L2/6 pyramidal intratelencephalic GLU cell

Picture

Canonical Form Type

Canonical form 3 Show Other

Picture from

Cajal, S. Ramon y (1911). Reprinted and translated by Swanson and Swanson, Oxford University Press, 1995.

Organism

Vertebrates Show Other

Neuron category

principal Show Other

Neuron type

cell rotation

Coordinates(2D)

Description

Electrophysiological properties

110

NeuroLex

Layer

Hodology

intratelencephalic Show Other

Molecular Marker

Neuronal Receptors (16)

SN	Property present	CF-Compartment	Receptor	Connect Note	Publication facts
1	Yes	Distal apical dendrite	GabaA
2	Yes	Soma	AMPA		Simultaneous recordings were carried out in visual cortical slices. Assuming open probability of non-NMDA receptor channels to be 0.7, it is suggested that the number of channels available for synaptic transmission between individual pyramidal cells would be 74 (kittens) and 59 (rats)
3	Yes	Distal apical dendrite	mGluR
4	Yes	Proximal apical dendrite	Glutamate	Deep pyramidal neuron terminals (T) from other regions; some TC terminals (T)
5	Yes	Distal basal dendrite	Glutamate	TC terminals (T)
6	Yes	Middle basal dendrite	Glutamate	TC terminals (T)
7	Yes	Proximal basal dendrite	Glutamate	TC terminals (T)
8	Yes	Axon hillock	GabaB	Chandelier Cell Interneuron terminals (T)
9	Yes	Axon hillock	GabaA	Chandelier Cell Interneuron terminals (T)	GABA from chandelier inhibitory interneurons.
10	Yes	Distal apical dendrite	Glutamate	Deep pyramidal neuron terminals (T) from other regions; some TC terminals (T)
11	Yes	Middle apical dendrite	Glutamate	Deep pyramidal neuron terminals (T) from other regions; some TC terminals (T)
12	Yes	Distal apical dendrite	NMDA
13	Yes	Middle apical dendrite	NMDA
14	Yes	Proximal apical dendrite	NMDA
15	Yes	Soma	GabaB	Basket Cell Interneuron terminals (T)
16	Yes	Soma	GabaA	Basket Cell Interneuron terminals (T)	GABA from basket cell inhibitory interneurons.

Neuronal Currents (20)

SN	Property present	CF-Compartment	Current	Publication facts
1	Yes	Axon terminal	I N
2	Yes	Distal basal dendrite	I Calcium	Action potential-evoked Ca2+ signals in spines of basal dendrites decreased slightly with distance from the soma
3	Yes	Middle basal dendrite	I Calcium	Action potential-evoked Ca2+ signals in spines of basal dendrites decreased slightly with distance from the soma
4	Yes	Proximal basal dendrite	I Calcium	Action potential-evoked Ca2+ signals in spines of basal dendrites decreased slightly with distance from the soma
5	Yes	Soma	I K,Ca	Ca2+-activated K+ currents were studied using whole-cell patch-clamp recordings from freshly dissociated mouse neocortical pyramidal neurons
6	Yes	Soma	I Calcium	Using calcium imaging, calcium waves in layer 2/3 and layer 5 neocortical somatosensory pyramidal neurons were examined in slices from 2- to 8-week-old rats
7	Yes	Soma	I L high threshold	using whole-cell patch-clamp recordings from freshly dissociated mouse neocortical pyramidal neurons showed that Ca2+-dependent K+ currents were activated by Ca2+ entry through both N- and L-type channels
8	Yes	Middle apical dendrite	I Calcium	Using calcium imaging, calcium waves in layer 2/3 and layer 5 neocortical somatosensory pyramidal neurons were examined in slices from 2- to 8-week-old rats
9	Yes	Proximal apical dendrite	I Calcium	Using calcium imaging, calcium waves in layer 2/3 and layer 5 neocortical somatosensory pyramidal neurons were examined in slices from 2- to 8-week-old rats
10	Yes	Distal apical dendrite	I Calcium	Using calcium imaging, calcium waves in layer 2/3 and layer 5 neocortical somatosensory pyramidal neurons were examined in slices from 2- to 8-week-old rats
11	Yes	Proximal apical dendrite	I Na,t	Recordings from acute brain slices and in anesthetized rats using whole-cell recordings and Ca2+ imaging found that backpropagation of action potentials into the dendritic arbor is actively supported by Na+ channels both in vitro and in vivo.
12	Yes	Proximal apical dendrite	I p,q
13	Yes	Axon hillock	I Na,t
14	Yes	Axon hillock	I K
15	Yes	Axon fiber	I Na,t
16	Yes	Distal apical dendrite	I p,q
17	Yes	Distal apical dendrite	I Na,t	Recordings from acute brain slices and in anesthetized rats using whole-cell recordings and Ca2+ imaging found that backpropagation of action potentials into the dendritic arbor is actively supported by Na+ channels both in vitro and in vivo.
18	Yes	Middle apical dendrite	I p,q
19	Yes	Middle apical dendrite	I Na,t	Recordings from acute brain slices and in anesthetized rats using whole-cell recordings and Ca2+ imaging found that backpropagation of action potentials into the dendritic arbor is actively supported by Na+ channels both in vitro and in vivo.
20	Yes	Soma	I Na,t	Recordings from acute brain slices and in anesthetized rats using whole-cell recordings and Ca2+ imaging found that backpropagation of action potentials into the dendritic arbor is actively supported by Na+ channels both in vitro and in vivo.

Neuronal Transmitters (4)

SN	Property present	CF-Compartment	transmitter	Connect Note	Publication facts
1	Yes	Proximal apical dendrite	Glutamate		Dual whole-cell recordings showed that Ca2+-dependent release of a retrograde messenger, most probably glutamate, from dendrites suppresses the inhibition of pyramidal neurons
2	Yes	Middle apical dendrite	Glutamate		Dual whole-cell recordings showed that Ca2+-dependent release of a retrograde messenger, most probably glutamate, from dendrites suppresses the inhibition of pyramidal neurons
3	Yes	Distal apical dendrite	Glutamate		Dual whole-cell recordings showed that Ca2+-dependent release of a retrograde messenger, most probably glutamate, from dendrites suppresses the inhibition of pyramidal neurons
4	Yes	Axon terminal	Glutamate	Deep pyramidal neurons and interneurons

Other categories referring to Neocortex M1 L2/6 pyramidal intratelencephalic GLU cell

Neuronal Structure.Neurons (1)

Revisions:	8
Last Time:	11/1/2018 10:08:44 AM
Reviewer:	System Administrator
Owner:	System Administrator