nerve

15問 • 1年前

問題一覧

True about asrocyte

The resting membrane potential of astrodytes is more negative than of neurons, Regulates the K of the brain ECF, They are able to take up NT

True about astrocyte

regulates cerebral blood flow, the RMP of astrocytes is more negative than of neurons

Function of astrocytes

they provide fuels for neurons, they buffer K level of the brain interstitium

Which glial cell form myelin sheaths?

schwann cell, oligodendrocyte

Glial cell

Satellite cell, Schwann cell, Oligodendrocyte

Glial cell of CNS

oligodendrocyte, astrocyte, microglial cell

Approximate RMP of astrocyte -()mv

EPSP

EPSP causes depolarization of the cell, EPSP is typically caused by the opening of ligand gates cation channels, The EPSP lasts for milliseconds, Glutamate is the most frequent NT which evokes it

IPSP

typically caused by the opening of ligand gates anion channels, GABa is the most frequent NT Wachi evokes it, stabilizes the membrane potential at negative values, glycine NT can evoke it

True for receptor potential

its amplitude is proportional to the intensity of stimulation, both the appearance and the disappearance of the stimulus are able to induce it, it is an electronic potential

True about the brain

GABA is an inhibitory NT, The microglial cells can phagocyte in the brain, Glutamate is an excitatory NT

Retrograde signaling

2 arachidonhlglhcerol is an important transmitter, CB1R is the receptor for 2 arachidonylglhcerol, NT from the poststnaptkc membrane effect on presynaptically, CB1R is GPCR, CB1R activation can open K

Synaptic plasticity

During LTP the NMDAr open, Synaptic strength increases after high AP stimulation of presynaptic axon, Synaptic strength decreases in long term depression, It can last for days

Increasing sensory stimulus will result

the number of stimulated sensory receptors increases, larger area will be activated in the primary somatosensory cortex, the frequency of AP in the sensory neurons increases

Increasing sensory stimulus is estimated by the

number of activated sensory neurons, AP frequency of the primary sensory neuron, the amplitude of RP

Week3-4

Week3-4

Weekly2

Weekly2

Weekly2-2

Weekly2-2

Weekly2-3

Weekly2-3

Weekly3

Weekly3

Weekly3-2

Weekly3-2

Weekly3-3

Weekly3-3

Weekly3-4 Viscerosensory

n · 34問 · 2年前

Weekly3-4 Viscerosensory

34問 • 2年前

Week6-skeletal muscle

n · 10問 · 2年前

Week6-skeletal muscle

Week6- Heart

Week6- Heart

Weekly4-1

Weekly4-1

Week9

Week9

⭐️Parameters

⭐️Parameters

DNA

DNA

RNA

RNA

Week11

Week11

Week12

Week12

Week13

Week13

week1

week1

genetics quiz

genetics quiz

genetics mcq

genetics mcq

genetics2

genetics2

Week2

Week2

Immunology final

Immunology final

Week3

Week3

Week3-4 Thyroid

Week3-4 Thyroid

general

general

general2

general2

Week4-body

Week4-body

Week4-Caicium, bone

Week4-Caicium, bone

Week5,6-sexual

Week5,6-sexual

immunology

immunology

Internal Metabolism

Internal Metabolism

cell cycle

cell cycle

mid1?

mid1?

mid2

mid2

Week8

Week8

sensory

sensory

genetic3

genetic3

gene4

gene4

Week12

Week12

Week13

Week13

week11

week11

Midterm pp

Midterm pp

Midterm1-2

Midterm1-2

Mid2-1

Mid2-1

Minimum-mycology

Minimum-mycology

Minimum-virology

Minimum-virology

Minimum-general

Minimum-general

Minimum-systemic

Minimum-systemic

Mid2-2

Mid2-2

Mod2-3

Mod2-3

Minimum-systemic2

Minimum-systemic2

Minimum-parasitology

Minimum-parasitology

問題一覧

True about asrocyte

The resting membrane potential of astrodytes is more negative than of neurons, Regulates the K of the brain ECF, They are able to take up NT

True about astrocyte

regulates cerebral blood flow, the RMP of astrocytes is more negative than of neurons

Function of astrocytes

they provide fuels for neurons, they buffer K level of the brain interstitium

Which glial cell form myelin sheaths?

schwann cell, oligodendrocyte

Glial cell

Satellite cell, Schwann cell, Oligodendrocyte

Glial cell of CNS

oligodendrocyte, astrocyte, microglial cell

Approximate RMP of astrocyte -()mv

EPSP

EPSP causes depolarization of the cell, EPSP is typically caused by the opening of ligand gates cation channels, The EPSP lasts for milliseconds, Glutamate is the most frequent NT which evokes it

IPSP

typically caused by the opening of ligand gates anion channels, GABa is the most frequent NT Wachi evokes it, stabilizes the membrane potential at negative values, glycine NT can evoke it

True for receptor potential

its amplitude is proportional to the intensity of stimulation, both the appearance and the disappearance of the stimulus are able to induce it, it is an electronic potential

True about the brain

GABA is an inhibitory NT, The microglial cells can phagocyte in the brain, Glutamate is an excitatory NT

Retrograde signaling

Synaptic plasticity

During LTP the NMDAr open, Synaptic strength increases after high AP stimulation of presynaptic axon, Synaptic strength decreases in long term depression, It can last for days

Increasing sensory stimulus will result

the number of stimulated sensory receptors increases, larger area will be activated in the primary somatosensory cortex, the frequency of AP in the sensory neurons increases

Increasing sensory stimulus is estimated by the

number of activated sensory neurons, AP frequency of the primary sensory neuron, the amplitude of RP