PCS 1

Question 1

What is an amphiobolic reaction?

Answer 1

A catabolic and anabolic reaction together e.g. Krebs

Question 2

What is mean by the term ‘Accommodation’?

Answer 2

Slow and prolonged depolarization due to inactive sodium channels.

Sodium cannot be transported into the cell therefore depolarization occurs slowly.

Question 3

What is the function of a tight junction? What are the proteins that make them up called?

Answer 3

They link epithelial cells together. Claudins are transmembrane proteins present in tight junctions .

Question 4

What is the main regulatory point in glycolysis? What steps does it catalyse?

Answer 4

PFK.

Fructose-6-Phosphate –> Fructose-1,6-Bisphosphate

Question 5

What are the three most commonly fractured carpal bones?

Answer 5

1. Scaphoid 2. Triquetrum 3. Lunate

Question 6

What is the function of the Biceps Brachii?

Answer 6

FLEXES and SUPINATES the forearm at the elbow joint.

Question 7

In which muscle type(s) are the contractile filaments organized into sarcomeres?

Answer 7

Cardiac and Skeletal muscles.

Question 8

Which cell type gives rise to osteoblasts?

Answer 8

Osteoprogenitor cell

Question 9

What is the definition of a motor unit?

Answer 9

One lower motor neurone and all the skeletal muscle fibers that it innervates.

Question 10

What makes up ground substance?

Answer 10

GAGs and Proteoglycans.

Question 11

In which muscle type(s) are satellite cells present?

Answer 11

Skeletal. Satellite cells are stem cells.

Question 12

Go through the steps of muscle contraction with actin and myosin including the power stroke.

Answer 12

1. ATP bind to myosin.
2. Binding of ATP to myosin causes the myosin to dissociate from actin.
3. ATP hydrolysis into ADP and Pi. This causes myosin to change the angle of its head.
4. With ADP and Pi still present, myosin binds to actin at a new angle.
5. When Pi leaves, myosin pulls against actin, causing the power stroke (contraction!)

Question 13

What is calculated using the Nernst Equation?

Answer 13

Equilibrium Potenital

Question 14

What is the resisting membrane potential for sodium and potassium?

Answer 14

Sodium +60mV

Potassium -90mV

Question 15

Name the FOUR major classes of simple epithelia.

Answer 15

Squamous, cuboidal, columnar, pseudostratified

Question 16

What enzyme catalyses the link reaction? Steps involved?

Answer 16

Pyruvate dehydrogenase.

Pyruvate –> Acetyl CoA.

Irreversible reaction.

Question 17

What is the function of the carnitine shuttle?

Answer 17

Transporting fatty acids from the intermembranous space of the mitochondria to the mitochondrial matrix.

Without this shuttle, the fatty acids would not be able to be transported into the matrix, meaning fatty acids would not be available to be metabolised, making it the rate limiting factor.

Question 18

What reaction does Hexokinase catalyse?

Answer 18

Glucose –> Glucose-6-Phosphate (via the transfer of a phosphate molecule from ATP to glucose)

1st step in glycolysis

Question 19

What are the three main controls in glycolysis?

Answer 19

Phosphofructokinase

Hexokinase

Pyruvate Kinase

Question 20

What determines the contraction speed of skeletal muscle fibers?

Answer 20

ATPase activity of myosin

Question 21

What is the action of Myosin Light chain kinase?

Answer 21

Phosphorylates myosin, allowing it to bind to actin for contraction to occur.

Question 22

What is the action of Myosin Light chain phosphotase?

Answer 22

Dephosphorylates myosin light chain / detatches cross bridges. Inhibits muscle contraction.

Question 23

Name the epithelium lining the tongue.

Answer 23

Non-keratinised stratified squamous epithelium.

Question 24

What proteins form gap junctions?

Answer 24

Connexons. They require 6 connexins to form one connexon.

Question 25

What proteins are involved in Adhering Junctions?

Answer 25

Cadherin molecules bound to actin.

Question 26

What proteins are involved in Gap Junctions?

Answer 26

Connexons

Question 27

What proteins are involved in Hemidesmosomes?

Answer 27

Integrins

Question 28

What proteins are involved in Desmosome junctions?

Answer 28

Cadherin to Keratin filaments

Question 29

In glycolysis, what does Phosphoglucose Isomerase catalyse?

Answer 29

The second step!

Glucose 6-phosphate - Fructose 6-phosphate

Question 30

What are the products in TCA cycle?

Answer 30

3 NADH

1 FADH

2 Co2

1 GTP

Question 31

What is the function of complex 1-4 in the ETC?

Answer 31

Complex 1 -> NADH- CoQ reductase (transfers electrons from NADH to CoQH2)

Complex 2 –> Succinate CoQ reductase (uses FADH2 and is part of kreb cycle too)

Complex 3 –> CoQ Cytochrom c reductase (transfers electrons from COQH2 to Cyt c)

Complex 4 –> Cytochrome C Oxidase (final complex in ETC)

Question 32

What are Islets of Langerhans?

Answer 32

Endocrine tissue found in the pancreas which releases glucagon and insulin.

Question 33

Which complex in the electron transport chain does carbon monoxide inhibit?

Answer 33

Complex IV

Question 34

What is the problem in Mcardle’s disease?

Answer 34

The inability to produce glycogen phosphorylase. (required to break down glycogen to glucose)

Question 35

Fill in the table for Insulin.

a) origin
b) metabolic effects
c) effect on blood glucose levels

Answer 35

Question 36

Fill in the table for Glucagon.

a) origin
b) metabolic effects
c) effect on blood glucose levels

Answer 36

Question 37

Fill in the table for Adrenaline.

a) origin
b) metabolic effects
c) effect on blood glucose levels

Answer 37

Question 38

Fill in the table for Cortisol.

a) origin
b) metabolic effects
c) effect on blood glucose levels

Answer 38

Question 39

Fill in the table for Growth Hormone

a) origin
b) metabolic effects
c) effect on blood glucose levels

Answer 39

Question 40

If you ran a 100m sprint, what would be your main energy source?

Answer 40

A 100m sprint requires a short burst of energy.

In most cases, pre-synthesised ATP, creatine phosphate and anaerobic glycolysis are the main processes that provide ATP to make you sprint.

Oxidative phosphorylation would be too slow to activate.

Question 41

What would be he main energy source for running between 100m - 1km?

Answer 41

Oxidative Phosphorylation is usually sufficient enough to provide energy to one going from over 100m to 1km.

Glycogen may begin to be used towards the end of this time but it would not be the ‘main’ energy resource.

Question 42

What energy sources would be used when running a half marathon?

Would it be the same source throughout or would it change?

Answer 42

Oxidative phosphorylation is used for the first part of the half-marathon and may be used throughout the race.

After about 1km, your body will begin to use glycogen reserves and Beta-oxidation of fatty acids to primarily provide your ATP needs over a long period of time.

Question 43

Is the brain insulin sensitive or resistant?

Answer 43

It is considered an insulin resistant organ

The main places where insulin acts are hepatocytes, adipocytes and myocytes.

Question 44

What is the main energy source for a red blood cell?

Answer 44

RBCs have no nucleus or mitochondria.

oxidative phosphorylation and beta oxidation cannot take place so …

GLUCOSE can be the only molecule used by the cell to generate ATP.

Question 45

What does a 2% NaCl solution mean?

Answer 45

0.02 x 100 =

2g/100ml

Question 46

What does 0.9% NaCl solution mean?

Answer 46

0.9g/100ml

Question 47

Convert the units of

2% NaCl solution into

mg/ml units

Answer 47

2% = 2g/100ml

2000mg/100ml

i.e. 20mg/ml

Question 48

What is the liver isoform of hexokinase called?

Answer 48

Glucokinase

Requires a much higher glucose concentration for maximal activity. It has a high Km - requires more substrate to work.

Most active after the consumption of a carbohydrate rich meal.

Question 49

How does DNP (2,4-dintirophenol) disrupt ATP synthesis?

Answer 49

It disrupts the proton gradient in the electron transport chain.

DNP is a hydrophobic molecule, so can freely diffuse across the inner mitochondrial membrane.

It can carry protons across the inner mitochondrial membrane, which is normally impermeable to them.

This means that they don’t go down the usual route, through ATP synthase.

This means that normal ATP synthesis stops. It is said to be an ‘uncoupler’ of oxidative phosphorylation.

Question 50

How many molecules of NADH are produced for each pyruvate –> acetyl CoA?

Answer 50

1

Question 51

Which electron carrier is produced by Vitamin B3?

Answer 51

NADH

Question 52

What 2 components make up the nicotinamide ring of NAD+?

Answer 52

Niacin (vitamin B3)
Tryptophan

Question 53

What occurs when NAD+ accepts electrons?

Answer 53

A hydride ion covalently binds to it, reducing NAD+ to NADH, and oxidizing the substrate.

Question 54

What occurs when FAD accepts electrons?

Answer 54

It gets reduced as it accepts 2 hydride ions, and the substrate is oxidized.

Question 55

What do the reduced cofactors FADH2 and NADH do with their electrons?

Answer 55

Transfer them to the ETC

Question 56

What do the electrons from reduced CoQ get passed on to?

Answer 56

Cytochrome c

(consist of a Heme group & Protein)

Question 57

How is a cytochrome changed when it accepts an electron?

Answer 57

The IRON of the heme group is reduced from Fe3+ to Fe2+

Question 58

What is Thiamine pyrophosphate (TPP)? What is it made from?

Answer 58

Derivative of Thiamine (B1)

Formed from ATP and thiamine

Deficiency = beri beri

Question 59

What is the pentose phosphate pathway?

Products?

Rate limting enzyme?

Answer 59

2 pathways

Oxidative phase - begins with glucose-6-phosphate

**Gl-6-Phos –> Rib-5-Phos generates 2 NADPH from 2NADP+**

Non oxidative - begins with ribulose-5-phosphate

RLE: Glucose-6-Phosphate Dehydrogenase

Question 60

Number of NADH, FADH per molecule of glucose in the TCA cycle?

Number of enzymes involved?

What two things start the cycle?

Answer 60

one glucose, 2 turns of the cycle.

6 NADH, 2 FADH, 8 enzymes

Acetyl CoA & oxaloacetate

Question 61

What happens to GTP produced from the Krebs cycle?

Answer 61

GTP –> ATP

by the enzyme Nucleoside Diphosphokinase

It is always converted afterwards because GTP cannot be used as an energy source for many cell functions (GTP is specific to protein synthesis and gluconeogenesis)

Question 62

What is temporal summation?

Answer 62

Temporal summation occurs when a single neuron fires many excitatory post synaptic potentials (EPSPs). If the summation crosses the threshold potential, then the post-synaptic cell will depolarise and generate and action potential.

Question 63

What is spatial summation?

Answer 63

Spatial summation occurs when different neurons synapse with the cell body of a neuron and they each fire EPSPs.

Question 64

When does an Inhibitory postynpatic potential occur?

Answer 64

It occurs when a presynaptic membrane release a neurotransmitter that causes the opening of Cl- channels in the postsynaptic membrane and hyperpolarisation.

Question 65

What does Frequency potentiation mean?

Answer 65

It occurs when many action potentials arrive at the presynaptic membrane, leading to a larger release of neurotransmitter from the presynaptic cell. The postsynaptic membrane is therefore more likely to depolarise.

Question 66

Under what conditions will a reaction occur spontaneously?

Answer 66

if delta G = -ve (exothermic)

A reaction will only proceed if there is an increase in disorder (delta S) within the system

Question 67

Name the types of proper connective tissue.

Name the types of special connective tissue.

Answer 67

proper = Loose, Dense regular, Dense irregular

special = adipose, blood, cartilage, bone

Question 68

Fibro blasts are the active cells in connective tissue. They secrete ECM including fibres such as __, __, __, __?

Answer 68

collagen, elastin, reticulin, ground substance

Question 69

Sickle Cell Anaemia = change of __ to __ ?

(amino acids)

Answer 69

Glutamic acid –> Valine

Question 70

Location and function of:

GLUT1

GLUT2

GLUT3

GLUT4

GLUT5

Answer 70

GLUT1 - all cells - basal uptake

GLUT2 - liver & pancreas - glucose uptake (_{from blood})

GLUT3 - all cells - basal uptake

GLUT4 - muscle & adipose - *insulin sensitive*

GLUT5 - S.intestine - fructose (F.diff)

Question 71

What is the action of ‘Enolase’ enzyme?

Answer 71

Takes water out

i.e. dehydration

Question 72

What makes up ATP?

Answer 72

Adenine, Ribose, 3 x Phosphate

Question 73

What is the nernst equation? units?

Simplified version? (under what conditions?) units?

Answer 73

Normal: ** -ve **, Temp in K, z = charge of ion

units: v –> x 1000 = mv

Simplified - at 37oC. units: mv

Question 74

Convert oC –> Kelvin.

Answer 74

+273.15

Question 75

How would you calculate a 95% reference range using a given mean and SD?

Answer 75

Exclude top and bottom 2.5%

Range = (mean-1.96SD) to (mean+1.96SD)

Question 76

Two pathways for glucose?

Answer 76

2 x (pyruvate –> acetyl CoA)

2 x (pyruvate –> lactate)

Question 77

Link reaction.

How many are made per glucose molecule?

NADH

ATP

CO₂

Answer 77

(1 x glucose –> 2 x pyruvate)

2 NADH

0 ATP

2 CO₂

Question 78

TCA cycle

How many are made per glucose molecule?

NADH

FADH₂

ATP

CO2

Answer 78

6 NADH

2 FADH2

0 ATP (2 GTP –> converted to ATP)

4 CO2

Question 79

What is ketogenesis?

Answer 79

The production of ketone bodies (highly acidic) from acetyl coa.

Question 80

What is the ‘committed’ step in glycolysis?

How is it regulated in skeletal muscle?

Answer 80

PFK

Inhibited by low pH (as a result of increased lactic acid). This will denature the enzyme, preventing more lactic acid from being produced.

ATP allosterically inhibits at high concentrations but this will be removed by the high AMP present.

Question 81

What is the final end product of beta oxidation?

How does it enter the TCA cycle?

Answer 81

Beta oxidation creates acetyl CoA & acyl CoA until all carbons of acyl CoA are gone.

There will be a three carbon end product Propinyl CoA produced if the fatty caid chain contains an odd number of carbons.

Propinyl CoA is converted to Succinyl CoA which enters the TCA cycle.

Question 82

Place in order (excitation contraction):

1) Depolarisation spreads to the T tubules
2) Ca2+ is released from the sarcoplasmic reticulum
3) ACh released from alpha motor neurons
4) Signal is passed to the terminal cisternae
5) Binding of ACh to receptors on the sarcolemma

Answer 82

5) Binding of ACh to receptors on the sarcolemma
3) ACh released from alpha motor neurons
1) Depolarisation spreads to the T tubules
4) Signal is passed to the terminal cisternae
2) Ca2+ is released from the sarcoplasmic reticulum

**T tubules are imaginations of the sarcolemma (cell membrane) into the muscle fiber

**Terminal Cisternea are expanded portions of the sarcoplasmic reticulum that come in close proximity to the T tubules.