Skeletal Muscle & Nervous Tissue

Skeletal muscle
adaptations & organelles

Sarcomeres and what-nots

At the NMJ

Muscle Miscellaneous

Naughty Little Neuron Bits

Brain Glue

Everything is nervous

100

A pigment in muscle fibers that stores oxygen and keeps it handy for 'on demand' use

Myoglobin

100

Striping found on skeletal muscle fibers

Striations

100

This is wave of depolarization that spreads over the sarcolemma - caused by the opening of voltage gated Na⁺ channels

Action potential

100

Muscle tissue that lacks striations

Smooth muscle

100

These neuron processes receive input signals from receptors and other neurons

Dendrites

100

These cells make myelin sheaths in the PNS

Schwann cells

100

The junction of two neurons

Synapse

200

Sequesters and releases Ca⁺⁺ in a muscle fiber

Sarcoplasmic reticulum

200

This protein has the heads that form cross-bridges during contraction

Myosin

200

The neurotransmitter released by the axon terminal at the neuromuscular junction

Acetylcholine

200

Over time, light to moderate intensity (aerobic) exercise will increase the number of these in a muscle, making it more efficient

Mitochondria & blood vessels (capillaries)

200

Every neuron has exactly one of these output processes

Axons

200

The immune cell of the CNS

Microglia

200

This determines whether a neurotransmitter is excitatory or inhibitory

The type of receptor that it binds to

300

A protein rod made of repeating sequences of myofilaments

Myofibril

300

Where the sarcomere ends & begins.

(it's not a Shel Silverstein book)

Z disc

300

The teensy-tiny sliver of space that separates the axon from the muscle fiber

Synaptic cleft

300

One motor neuron and all of the muscle fibers that it controls

Motor unit

300

White, fatty material that insulates some axons & speeds up nerve transmission

Myelin

300

Each one of these cells can wrap myelin around up to 60 axons in the CNS

Oligodendrocytes (these are also your instructor's favorite neuroglia.)

(Yeah, that's right. I have a favorite neuroglial cell type. You mean you don't?)

300

Short distance depolarization on a dendrite. Will die out if the stimulus isn't sufficiently strong

Graded potential

400

Storage granules that hold long, branching polymers of glucose. Provide energy to generate ATP when needed.

Glycosome

400

The light stripe on the sarcomere - where only the thin filaments are found.

I band

400

Chemically-gated channels on the motor end plate allow entry of this ion, causing an end plate potential

Na⁺

400

During high-intensity, short-duration exercise, like sprinting, this metabolic pathway provides the ATP

Anaerobic (glycolytic) pathway

400

If a 3 foot neuron needs to patch up a protein at the axon terminal, it must be made and imported from this part of the neuron

Cell body (soma)

400

The pronunciation of the name of this neuroglial cell type drives your instructor batty. They line the fluid filled cavities (ventricles) of the brain. You must pronounce it correctly to get the points.

Ependymal cells

400

The short period of time after an action potential when a patch of membrane absolutely cannot be stimulated enough to generate another action potential

The absolute refractory period

500

Conducts action potentials to every myofibril in a muscle fiber

T-tubule

500

This protein blocks the actin subunits during relaxation so that no cross-bridges can form

Tropomyosin

500

After the sarcolemma depolarizes, it is reset to its original RMP when gated channels open and allow this ion to leave the cell

K⁺

500

The primary reason for muscle fatigue

Ion imbalances

500

Action potentials are generated here

Axon hillock

500

These cells are a major component of the Blood-Brain barrier

Astrocytes

500

Nerve impulses on myelinated axons jump from myelin sheath gap to myelin sheath gap

Saltatory conduction