3.4.4 Skeletal Muscles as Effectors Flashcards

1
Q

Muscles act as _____ and are stimulated to contract by _____

A

Muscles act as effectors and are stimulated to contract by neurones

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2
Q

What is skeletal muscle made up of?

A

Muscle fibres (large bundles of long cells)

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3
Q

What is sarcolemma?

A

Cell membrane of muscle fibre cells

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4
Q

What are transverse (T) tubules?

A

Folds = bits of sarcolemma fold inwards across muscle fibres and stick into sarcoplasm

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5
Q

What do T tubules do?

A

Help to spread electrical impulses throughout sarcoplasm so they reach all parts of muscle fibre

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6
Q

What is the sarcoplasmic reticulum?

A

Network of internal membranes that runs through sarcoplasm

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7
Q

What does the sarcoplasmic reticulum do?

A

Stores and releases calcium ions needed for muscle contraction

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8
Q

Muscle fibres are _______

A

Muscle fibres are multinucleate

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9
Q

Name 2 things muscle fibres have lots of

A
  • Mitochondria
    • Provides ATP needed for muscle contraction
  • Myofibrils (cylindrical organelles)
    • Made up of proteins and are highly specialised for contraction
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10
Q

State what 1) is

A
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11
Q

State what 2) is

A
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12
Q

State what 3) is

A
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13
Q

State what 4) is

A
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14
Q

State what 5) is

A
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15
Q

What is skeletal muscle (aka striated, striped or voluntary muscle)?

A

Type of muscle you move

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16
Q

How is skeletal muscle attached to bones?

A

By tendons

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17
Q

Muscle Contraction

What do bones acts as when a pair of skeletal muscles contract and relax to move bones at a joint?

A

So act as levers, giving muscles something to pull against

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18
Q

Muscles that work together to move a bone are called ________ ____

A

antagonistic pairs

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19
Q

Muscles act in Antagonistic Pairs

State what muscle is agonist

A

Contracting muscle

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20
Q

Muscles act in Antagonistic Pairs

State what muscle is antagonist

A

Relaxing muscle

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21
Q

Describe what happens when your biceps contracts

A
  • Biceps contract (agonist), triceps relaxes (antagonist)
  • Pulls bone so your arm bends (flexes) at the elbow
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22
Q

Describe what happens when your biceps relaxes

A
  • Biceps relaxes (antagonist), triceps contracts (agonist)
  • Pulls bone so your arm straightens (extends) at the elbow
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23
Q

Myofibrils contain thick and thin ____ that ___ ___ ____ ____ to make muscles contract

A

Myofibrils contain thick and thin myofilaments that move past each other to make muscles contract

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24
Q

What are thick myofilaments made from?

A

Protein myosin

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25
What are thin myofilaments made from?
Protein actin
26
State what 1) is
27
State what 2) is
28
State what 3) is
29
State what 4) is
30
State what 5) is
31
State what 6) is
32
Why do A-bands appear darker?
∵ contain thick myosin filaments & some overlap with actin filaments
33
Why do I-bands appear lighter?
∵ only contain thin actin filaments
34
The H-zone is the lighter region at the centre of A-band. Why is it lighter?
Only contains myosin filaments
35
The M-line is ______ of ____ filaments
The _M_-line is _middle_ of _myosin_ filaments
36
What is a sarcomere?
Distance between Z-line to Z-line
37
What theory explains muscle contraction?
Sliding Filament Theory
38
Describe the sliding filament theory
* Myosin and actin filaments slide over one another to make sarcomeres contract * Myofilaments don't contract * Simultaneous contraction of lots of sarcomeres means myofibrils and muscle fibres contract * Sarcomeres return to their original length as muscle relaxes
39
State what happens to lengths of A-bands, I-bands, H-zones, sacromeres when sacromeres contract
40
State what 1) is
41
State what 2) is
42
State what 3) is
43
State what 4) is
44
Describe the shape of myosin filaments' heads
Have globular heads that are hinged | (Move back and forth)
45
State what the 2 binding sites on a myosin head are for
actin & ATP
46
What are the binding sites on actin filaments for & what are they called?
* Myosin heads * Called actin-myosin binding sites
47
What does tropomyosin (found between actin filaments) help to do?
Helps myofilaments move past each other
48
In resting (unstimulated) muscle, why are actin-myosin binding sites blocked by tropomyosin?
So myofilaments can't slide past each other ∵ myosin heads can't bind actin-myosin binding site on actin filaments
49
Describe how muscles contract in detail
1. When action potential from motor neurone stimulates muscle cell, it depolarises sarcolemma 1. Depolarisation spreads down T-tubules 2. = sarcoplasmic reticulum releases Ca2+ into sarcoplasm 2. Influx of Ca2+ causes tropomyosin molecules to more, exposing binding sites 3. Myosin heads, have ADP attached, attach to binding site on actin, creating actin-myosin cross bridge 4. Ca2+ activate ATPase to hydrolyse ATP to ADP 1. Energy released causes myosin heads to bend, pulling actin filament 5. Another ATP molecule attaches to myosin head, causing myosin to detach from actin 1. With ADP myosin head can reattach to actin 6. Myosin head then reattaches to different binding sites further along actin 1. New actin-myosin cross bridge is formed & cycle is repeated
50
Describe what happens when muscle stops being stimulated (i.e. when excitation stops)
1. When muscle stops being stimulated, Ca2+ ions leave binding sites and moved by active transport back into sarcoplasmic reticulum 2. Causes tropomyosin molecules to move back & block actin-myosin binding sites 3. Muscles aren't contracted ∵ no myosin heads are attached to actin filaments 4. Actin filaments slide back to their relaxed position which lengthens sarcomere
51
Name the 3 main ways in which ATP is continually generated for muscle contraction
1. Aerobic respiration 2. Anaerobic respiration 3. ATP-Phosphocreatine (PCr System)
52
How is most of ATP generated in aerobic respiration?
via oxidative phosphorylation in mitochondria
53
What type of excercise is aerobic respiration best for?
Long periods of low-intensity exercise
54
What type of excercise is anaerobic respiration best for?
Short periods of hard exercise
55
Why is anaerobic respiration only good for short periods of hard exercise?
* ATP rapidly made by glycolysis * Lactate quickly builds up in muscle & = muscle fatigue
56
Describe how ATP is generated from the ATP-Phosphocreatine (PCr system)
* ATP is made by phosphorylating ADP * Adding phosphate group from PCr
57
For what type of excercise is the ATP-PCr system best used for?
Short bursts of vigorous exercise
58
Why is the ATP-PCr system best used for short bursts of vigorous exercise?
* PCr is stored inside cells and ATP-PCr system generates ATP very quickly * PCr runs out after a few seconds
59
ATP-PCr system is _____ and \_\_\_\_
ATP-PCr system is _anaerobic_ and _alactic_ (doesn't form any lactate)
60
How is creatine (Cr) removed from the body?
Creatine (Cr) gets broken down into creatinine - removed from body via kidneys
61
In what types of people are creatinine levels higher in?
People who exercise regularly and those with high muscle mass
62
What can high creatinine levels sometimes indicate?
Kidney damage
63
Name 2 types of muscle fibres
* Slow twitch * Fast twitch
64
Different muscles have different proportions of...
slow and fast twitch fibres
65
Name 6 differences between slow and fast twitch fibres
66
Name 3 things fast twitch contains
* High conc. of enzymes used in anaerobic respiration * A store of phosphocreatine * High concentration of glycogen
67
What is used to reform phosphocreatine?
ATP