Cells and other smaller lectures

Question 1

Are all cells enclosed by a membrane ?

Answer 1

YES

Question 2

What three systems do most eukaroyotic organelles belong to ?

Answer 2

Protein Uptake
Secretion Pathway
Uptake and degradation

Question 3

What are the main differences between euchromatin and heterochromatin ?

Answer 3

Euchromatin is less intensely stained and contains most active genes.

Question 4

Where does protein synthesis occur ?

Answer 4

In ribosomes present in the cytosol (the ribosome then either stay in the cytosol or bind to ER)

Question 5

Where are ribosomes assembled ?

Answer 5

In nucleolus at amplified ribosomes genes.

Question 6

What is the difference between constitutive and secretory vesicles ?

Answer 6

Constitutive bud from Golgi with membrane

Secretory bud from Golgi with packaged secretion

Question 7

What are the models of Golgi transport ?

Answer 7

Cargo moves forward from sac to next through vesicles (stable Golgi sacs)
Factories move with cargo and recycle in vesicles (maturing Golgi sacs)

Question 8

What is one reason for Golgi being close to the microtubule tracks ?

Answer 8

Upon secretion from Golgi, vesicles are transported along polarised microtubules track emanating from centrosomes (=MOC)

Question 9

What is the relation between centrosomes and centrioles ?

Answer 9

In animal cells, 2 centrioles per centrosome

Question 10

What is the process of uptake and degradation in cells ?

Answer 10

Following endocytosis of material and delivery to endosomes, it is passed on to lysosomes for degradation using low pH and hydrolytic enzymes.

Question 11

What is autophagy ?

Answer 11

Cytoplasmic components digested in lysosomes.

Question 12

What is pinocytosis ?

Answer 12

Fluid intake

Question 13

What is receptor-mediated endocytosis ?

Answer 13

Absorption of protein/virus by inward budding of membrane vesicle containing proteins with receptor for the protein/virus

Question 14

Where are the functional components of endosomes and lysosomes made ?

Answer 14

RER

Question 15

How does protein degradation by proteasome work ?

Answer 15

Junk protein tagged with ubiquitin (in cytoplasm, not lysosome).
Proteasome detects it and degrade protein through proteolysis

Question 16

What are the two great steps in eukaryotic cell evolution ?

Answer 16

Compartmentation

Mitochondria

Question 17

What is clathrin ?

Answer 17

Scaffold coat aiding vesicle budding

Question 18

What are the differences between microtubules, intermediate filaments and microfilaments?

Answer 18

Microtubules: thickest. Vesicle track made of tubulin
Microfilaments: thinnest. Generates contractile forces enabling movement and contraction. Made of actin
Intermediate filaments: middle thickness. Helps with strength and support (some in cytoplasm, others support nuclear envelope. Laminin, keratin)

Question 19

What is the role of the SER ?

Answer 19

Lipid, steroid production and detoxification

Question 20

What is the role of peroxisomes ?

Answer 20

Breaks down FAs, synthesise specialised lipids and so oxidative reactions using molecular oxygen.

Question 21

What is the aim of cell replication ?

Answer 21

Condensing chromosomes.

Question 22

What is the name of the OG cell ?

Answer 22

Totipotent stem cell

Question 23

What are the stages following totipotent stem cell ?

Answer 23

Totipotent stem cell –> Blastocyst with pluripotent SCs –> Isolated pluripotent SCs + Lematopoietic SCs (lead to blood cells) + neural SCs + mesenchymal SCs (lead to CT)

Question 24

What is hypercholesteroleamia due to ?

Answer 24

Defective uptake of lipoprotein. May be due to:

1) LDL not properly transported from RER to Golgi for expression on cell surface
2) LDL receptor bound to LDL does NOT cluster in endocytic vesicles on plasma membrane
3) LDL not recycled back to cell surface

Question 25

What is cystic fibrosis due to ?

Answer 25

Misfolding of protein.

Question 26

What is tertiary structure ?

Answer 26

3D of secondary structure as a result of bonds (hydrophobic, Van der Waals, ionic, disulfide bridge, H-bonds)

Question 27

What is the role of loops/bends as part of the tertiary structure ?

Answer 27

Linking regions of alpha helix and beta sheet.

Question 28

What is quaternary structure?

Answer 28

Association of more than 1 polypeptide to form oligomeric functional protein

Question 29

What is the structure of haemoglobin ?

Answer 29

2 alpha globins and 2 beta globins. Each globin has a haem which transport O2.

Question 30

What is the structure of haem and how does the binding of oxygen change it?

Answer 30

Porphyrin ring with coordinate iron atom.
Haem molecule held in placed by H-bonds from histidine F8
Bound O2 molecule stabilised by histidine E7
O2 binding causes haem to go from non-planar to planar.

Question 31

What kind of curve is the O2 binding curve of haemoglobin ?

Answer 31

It is a cooperative binding curve. Affinity of first oxygen molecules is low but binding of subsequent oxygen molecules increases this affinity
As O2 binds, histidine F8 which H-bonds to Haem molecule changes position which causes major structural changes in the globin subunit.

Question 32

What is the mutation occurring in sickle cell anaemia and what is the result of this mutation ?

Answer 32

Hydrophilic glutamic acid to hydrophobic valine (single AA change at position 6 in beta chain of haemoglobin)

Causes sickling of RBCs due to aggregation of mutated haemoglobin forming stuff fibres

Question 33

What is the effect of pH concentration on haemoglobin ? How does this relate to exercice ?

Answer 33

Bohr effect, O2 binding occurs with higher affinity (lungs) at high pH and lower affinity at lower pH (peripheral tissues).
In exercice, CO2 builds up which lowers blood pH which facilitates O2 delivery

Question 34

What is the difference in structure of RBCs in fetal blood ? Why is this significant ?

Answer 34

2 gamma subunits instead of beta subunits. Fetal haemoglobin binds O2 with greater affinity (necessary since blood less rich in O2 by time it reaches placenta)

Question 35

Which are glycine and proline important in collagen formation ? What is hydroxyproline and why is it important in collagen formation ?

Answer 35

Glycine allows for tight turns in tropocollagen triple helix.
Proline (faces outwards) imposes L hand twist in helix, provides stabilising force.
Hydroxyproline (faces outwards) is a hydroxylated form of proline. Forms strong hydrogen bonds which helps stabilise the triple helix.

Question 36

What are the components of the cross-links between tropocollagen molecules ? How do they achieve these cross-links ?

Answer 36

Lysine-derived aldehydes called lysyl oxidases.

Question 37

What is the AA mutation leading to osteogenesis imperfecta ? What is the result of this ?

Answer 37

Glycine replaced by cysteine which is bulkier (in gene coding for one of collagen subunits).
Tropocollagen subunits cannot pack properly, knock on effect on collagen fibre formation.

Question 38

What are the symptoms of scurvy and what is its structural cause ?

Answer 38

Dry skin, gum disorders.

Lack of hydroxyproline (due to vitamin C deficiency)

Question 39

What are the symptoms of Ehlers-Danloss syndrome and what is its structural cause ?

Answer 39

Loose skin, hypermobile joints.

Lock of procollagen peptidase (form mature procollagen) or lysyl oxidase (no cross-links)

Question 40

What is rate enhancement ?

Answer 40

Catalysed rate / Uncatalysed rate

Question 41

What is a non-enzymatic half life ?

Answer 41

For half of the reactans to convert to product without enzyme.

Question 42

What is the half life of an enzyme ?

Answer 42

TIme for activity to reduce to half of original activity.

Question 43

Why is the product accumulation of an enzymatic reaction not linear ?

Answer 43

The concentration of substrate falls, the product may inhibit the enzyme, the enzyme may denature, reverse reaction may become more favourable.

Question 44

What is the only valid parameter when measuring enzyme activity ?

Answer 44

Initial reaction velocity

Question 45

What is Vmax ?

Answer 45

The maximum velocity of a reaction. Rate of reaction increases as substrate concentration increases until Vmax is reached.

Question 46

Why is a double reciprocal of the data used when graphing enzymatic reactions ?

Answer 46

Because Vmax is very hard to actually achieve

Question 47

What are the axes of enzymatic graphs ?

Answer 47

X axis: 1/V0 (second/micromolar)

Y axis: 1/[S]

Question 48

What is the equation of this line ? What are the intercepts of this ?

Answer 48

I/V0 = (Km/Vmax) I/[S] + I/Vmax
X-intercept is -I/Km
Y intercept is I/Vmax

Question 49

What is Km ?

Answer 49

The substrate concentration required for half of the maximum velocity.

Question 50

What is the biological importance of Km?

Answer 50

Hexokinase is found in all tissues. It has a low Km which means it ensures utilisation of glucose even at very low concentrations.

Glucokinase is found in liver. Ensure glucose is not removed from blood for storage at low concentrations.

Question 51

What are the different kinds of enzymes?

Answer 51

Irreversible (inactivators) and reversible (allosteric and non-competitive)

Question 52

What are examples of irreversible inhibition ?

Answer 52

1. Organophosphates (pesticide). Phosphorylates hydroxyl group at active site of AChE. Hence they are inactivated and accumulate in nervous system, resulting in overstimulation and death.
2. Aspirin (acetylsalicylic acid). Reacts with serine residue close to active site which prevents arachidonic acid from binding.

Question 53

What is an example of reversible, competitive inhibition ?

Answer 53

Sulphonamides- similar in structure to 4-aminobenzoic acid which is essential for bacteria.

Question 54

How do competitive inhibitors alter the kinetics ?

Answer 54

Higher concentration of substrated needed to reach Vmax so increase in Km (Vmax is unchanged).
Hence -1/Km increases as well.

Question 55

How do allosteric inhibitors alter the kinetics ?

Answer 55

1. mixed allosteric: Affects both activity and binding. Vmax decreases and Km increases
2. non-competitive: Affects activity but not binding. Substrate affinity (Km) does not change but Vmax is reduced.

Question 56

What is an example of allosteric inhibition ?

Answer 56

Phosphofructokinase catalaysed transfer of phosphate from ATP to fructo-6-phosphate by binding at 2 sides.
In presence if high levels of ATP, inhibitory site is occupied.
As a result, glycolysis does not proceed when ATP not needed.

Question 57

What are the 6 types of enzyme reaction (give example of enzyme for each) ?

Answer 57

Hydrolases (trypsin)
Oxidoreductatses (alcohol dehydrogenase)
Lyases (carbonic anhydrase)
Isomerases (L-alanine isomerase, mutases)
Transferases (hexokinase)
Ligases (Carboxylases)

Question 58

What are co-factors ?

Answer 58

Substance whose presence is essential for the action of an enzyme

Question 59

What are the types of co-factors ?

Answer 59

• Prosthetic groups (integral part of enzyme structure, like HAEM)
• Cofactor acting as an acceptor for an atom removed from the substrate

Question 60

What is a co-enzymes ? Give an example

Answer 60

A co-factor acting as an acceptor for an atom removed from the substrate when it is promiscuous, consorting with more than 1 enzyme e.g. donates atom in reaction catalysed by different enzyme)
E.g NAD in catabolism of glucose and FAs

Question 61

Can we synthesise most of our co-enzymes ?

Answer 61

No, get them in our diet in the form of vitamins

Question 62

Which of these has a higher concentration inside the cell and which has a higher concetration extracellularly ?
K+ Na+, Ca++, Cl-

Answer 62

K+

Na+, Ca++, Cl-

Question 63

How are FAs stored ?

Answer 63

Through ester linkage to glycerol, forming triacyl glycerols.

Question 64

What is the structure of a steroid ?

Answer 64

4 fused carbon rings with functional groups attached.

Question 65

What are some uses of AAs (other than forming proteins) ?

Answer 65

Neurotransmitters (glutamine)
Sources of energy
Precursors for other molecules (glycine for porphyrin ring)

Question 66

What are some functions of nucleotides ?

Answer 66

• ATP and GTP are good energy stores (Because the link between the second and third phosphate high in energy )
• NADP and NADPH are good e- store (e.g. for ATP reduction)
• Cofactors for enzymes (coenzyme A)
• Signalling molecules (cAMP)
• Building blocks for nucleic acids

Question 67

What structures are lost in denaturation ?

Answer 67

Secondary, tertiary and quaternary

Question 68

Which molecules can be recognised and targeted vaccines ?

Answer 68

Glycoproteins

Question 69

What are examples of diseases caused by protein misfolding and aggregation ?

Answer 69

Alzheimer's 
Parkinsons's
Prion
Diabetes type 2
Huntington's

Question 70

What do D and L indicate in aldose/ketose nomenclature ?

Answer 70

How atom organised in way most similar to glyceralderhyde (chiral C farthest from carbonyl determines L or D. L if left D if right)

Question 71

Which organic molecules are known for always being in L configuration ? in D configuration ?

Answer 71

AAs always in L

Sugars always in D

Question 72

What are epimers ?

Answer 72

Either of two stereoisomers that differ in the arrangement of groups on a single asymmetric carbon atom

Question 73

What is galactosaemia ?

Answer 73

Lack of enzymes to metabolise galactose. Toxic effects in liver, brain, kidneys.

Question 74

What are anomers ?

Answer 74

Cyclic monosaccharides or glycosides that are epimers, differing from each other in the configuration of C-1 if they are aldoses or in the configuration at C-2 if they are ketoses (switch from beta configuration to alpha configuration)

Question 75

What test is there for reducing sugars ?

Answer 75

Fehling’s reagent, attempts to convert Cu2+ to Cu+ (blue to colorless)

Question 76

What is the difference between glucose oxidase test and glycation ?

Answer 76

Glucose oxidase test only gives short term insight into sugar control.
Glycation tells us about glucose levels in past months using RBCs (involves looking at HbA1C. If too high, may be diabetic.)

Question 77

What is lactose ?

Answer 77

Disaccharide with: 1. beta-D-galactose and 2. alpha or beta-D-glucose
beta 1-4 glycosidic bonds

Question 78

What is glycogen ?

Answer 78

Highly branched polysaccharide. Glucose units with

alpha 1-4 glycosidic bonds and alpha 1-6 glycosidic bonds

Question 79

What is starch ?

Answer 79

Plant form of carbs.
Two forms:
amylose (unbranched, 1-4 alpha bonds, 20%)
Amylopctin (beanched, 1-4 and 1-6 alpha bonds, 80%)

Question 80

What is cellulose ?

Answer 80

Storage in plants.

1, 4 beta bonds.

Question 81

What is the Handy Weinberg principle ?

Answer 81

relative proportions of genotypes constant throughout generations. NOT ALWAYS TRUE

Question 82

4 duties of a Dr ?

Answer 82

Knowledge, skill and performence
Safety and quality
Communication, parternship and teamwork
Maintaining Trust