Neuron Structure And Function

Question 1

What Is A Nervous System?

Answer 1

Organization of neurons and support cells for the conduction of electrical and chemical signals for communication within and between cells

Question 2

Central nervous System

Answer 2

Integrating Center
- brain and ganglia

Question 3

Peripheral Nervous System

Answer 3

• Sensory Receptors eg. mechanoreceptors, photoreceptors
• Effector Organs eg. muscles, glands

Question 4

Sponges

Answer 4

No nervous system or discrete sense organs
Though, respond to touch (some will close off ostia/osculum)
Respond to excessively high particle concentration
Close off ostia (via epidermal cells);flagellar beating
Class Hexactinellida have a syncytium which can conduct electrical signals along its membrane
Much slower than true neurons
This time-lapse video (one image every 30 seconds) shows a sponge contracting after sediment is added to the water it is filtering. These contractions work like a sneeze, helping remove sediment clogging the sponge’s filtration system.

Question 5

Centralization and Cephalization

Answer 5

the concentration of sense organs, nervous control, etc., at the anterior end of the body (i.e. formation of head and brain), but not radially symmetric animals

Question 6

Nerve Net

Answer 6

All cnidaria
* Diffuse nervous “system” (tissue)
* No nerve bodies (ganglia)
* No central nervous system
No myelin
Bidirectional transmission of (neurochemical) impulses
2 layers: one at base of epidermis and other base of gastrodermis

Nerve Processes Synapse Or Junction With:
1. (Neuro)sensory cells
2. Epitheliomuscular cells
3. Nutritive muscular cells

Question 7

Nerve

Answer 7

Cluster of neuronal axons in the PNS

Question 8

Ganglia

Answer 8

Cluster of neuronal cell bodies that serves specific functions / regions “swellings”

Question 9

Brain

Answer 9

Cluster of nerves that serves the whole organim. May have specialized parts (forebrain, midbrain, and hindbrain)

Question 10

Ganglionic nervous systems

Answer 10

E.g. cockroach * Anterior brain
* Ventral nerve cord
* Chain of ganglia and connectives * Solid
* Ganglia are linked by connectives (neuronal axons in the CNS of invertebrates)

Question 11

Columnar nervous systems

Answer 11

Continuous column of neural tissue * Cell bodies and synaptic area
intermingle
* Dorsal
* Hollow

Question 12

Preamble to neuron signaling

Answer 12

• Acts quickly, over short distances
• Electrical and chemical
• Act only on muscle,glands, or other neurons
• Finer control (e.g. 100 motor neurons per muscle cell)

Question 13

Hormonal Signaling

Answer 13

slow acting, long lasting
short and long distances
affects many tissues
eg. metabolism, growth control

Question 14

Dendrites

Answer 14

*Bring info to the cell body (receive messages)
*Rough Surface (dendritic spines)
*Usually many dendrites per cell
*No myelin insulation
*Branch near the cell body

Question 15

Neuron Structure And Function Differ From Other Cells

Answer 15

1) Neurons have specialized extensions called dendrites and axons.
2) Neurons communicate with each other, electrochemical
3) Neurons contain some specialized structures (synapses) and chemicals (neurotransmitters)

Question 16

Axons

Answer 16

*Take info away from the cell body (deliver messages)
*Smooth Surface
* 1 axon per cell
*Can be myelinated (not always)
*Myelin = fatty substance that insulates and increases speed of conduction
*Branch further from the cell body
Direction of electrical signal

Question 17

Axon Terminal

Answer 17

• One neuron has multiple terminal branches which end in terminal boutons
• Forms junctions (synapses) with other cells
• Presynaptic cell passes information to postsynaptic cell

Question 18

Glia – Supporting Cells

Answer 18

• Glia = Greek “glue”
• 56:302 Glia:Neurons in C. elegans
• 1:1 Glia:Neurons in primates
• 1/10th the size of neurons
• No electrical conduction
• No neurotransmitters
• 4 types (Astrocyte, Schwann, Oligodendrocyte, Microglia)

Question 19

Astrocyte (Astroglia)

Answer 19

Star-shaped cells that provide physical and nutritional support for neurons:

1) Provide nourishment to neurons by receiving glucose from capillaries
2) Guide neuronal development
3) Clean up brain debris
4) Regulate neurotransmitters in extracellular space

Question 20

Schwann Cells

Answer 20

• In the PNS: Associated with motor neurons and sensory neurons
• Wrap around one single neuron at a time
• Improve conduction speed
• Associated with regeneration of damaged axon

Question 21

Oligodendrocyte

Answer 21

• Form a myelin sheath for neurons in the CNS
• Single oligodendrocyte can wrap around several neurons

Question 22

Myelin

Answer 22

• Lipid (fatty) rich substance found around axons
• Derived from glial cells
• Acts as an insulator
• Increases speed of signal
• Separates by Nodes of Ranvier
• Demyelination associated with diseases such as Multiple Sclerosis

Question 23

Microglia

Answer 23

• Micro – very small
• Phagocytosis – clean up debris in the CNS
• Protect the brain from invading microorganisms * Similar in nature to macrophages

Question 24

What Is Membrane Potential?

Answer 24

• The difference in electric potential between the interior and the exterior of a biological cell
• Simply – voltage difference
• This charge differential has the potential
  to “do work”
• Normally cells are negative relative to the outside

Question 25

Patch Clamping

Answer 25

• Glass micropipette is fused to a tiny region of the membrane.
• Pipette can function as an electrode to record current changes.

Question 26

The equilibrium potential

Answer 26

• The electrical potential difference across the cell membrane that exactly balances the concentration gradient for an ion
• Net flow of ions is zero
• In neurons, the main ion moving is potassium.
• The equilibrium potential for potassium is -75mV
• The resting membrane potential is -70mV (other ions contribute)

Question 27

Nernst equation

Answer 27

The Nernst equation is used to calculate the equilibrium potential as a function of individual ion concentrations.
- predict individual ion movement

E = RT/zF ln (ion outside cell) / (Ion inside cell)

Question 28

Goldman Equation

Answer 28

Is used to calculate membrane potential as a function of all ion concentrations, valences and permeability of ions.

Question 29

Neuron Membrane Potential Is Mainly Controlled By Na + and K +

Answer 29

K+ is higher inside the cell
Na + is higher outside the cell
They both want to move down their concentration gradients
K+ channels are open (“leaky”)
Most sodium channels are closed in resting neurons

Question 30

In a resting neuron: Na+/K+ pump

Answer 30

• The Na+/K+ pump compensates for Na+ and K+ leakage - Pumps 3 Na+ back out
• Pumps 2 K+ back in
• Net change of -1
• Electrogenic: unequal ion movement

Question 31

Depolarization

Answer 31

• If Na+ channels open, Na+ moves into the cell
• The positive charge of Na+ decreases the membrane potential

Question 32

Hyperpolarization

Answer 32

• If K+ channels open, K+ moves out of the cell.
• The positive charge of K+ increases the magnitude of the membrane potential.