Biochemistry

Question 1

The most strong type of bond is…

Answer 1

LOVE

jks, covalent bonds

Question 2

Electronegativity is…

Answer 2

The attractive force that an atomic nucleus exerts on electrons

Question 3

EN carbon is greater than EN hydrogen. Which is reduced?

Answer 3

Carbon has a greater attractive force for electrons, so it gains electrons, therefore it is reduced and hydrogen is oxidised

Question 4

Reducing agents are themselves oxidised. True/False?

Answer 4

True

Question 5

First law of thermodynamics?

Answer 5

Energy is neither created or destroyed

Question 6

Second law of thermodynamics?

Answer 6

When energy is converted to another form, some of it is lost (never 100% efficient)

Question 7

∆G = the change in free energy = ?

Answer 7

∆H - T∆S

∆G°’ + RTln([C][D]/[A][B])

Question 8

Exergonic reactions are where…

Answer 8

Products have less free energy than the reactants
∆G is -ve
Reaction can occur spontaneously

Question 9

Endergonic reactions are where…

Answer 9

Products have greater free energy than the reactants
∆G is +ve
Reaction cannot occur spontaneously

Question 10

The difference between normal standard conditions and biochemical standard conditions is…

Answer 10

pH = 7

Question 11

At equilibrium ∆G = 0. This is characteristic of readily reversible reactions. True/False?

Answer 11

True

Question 12

Reaction spontaneity can be achieved by…

Answer 12

Changing concn of reactants/products
Coupling with highly favourable processes (e.g. with hydrolysis of ATP)
Both of the above help ∆G become -ve

Question 13

Amino acids are subdivided into 4 groups, which are?

Answer 13

Non-polar hydrophobic
Polar uncharged
Acidic (-COOH)
Basic (-NH)

Question 14

The N-terminal of a peptide chain is -ve. True/False?

Answer 14

False

It is +ve due to NH3

Question 15

The C-terminal of a peptide chain is -ve. True/False?

Answer 15

True due to COO-

Question 16

A zwitterion has which type of charge?

Answer 16

None! No net charge

Question 17

Ka = acid dissociation constant = ?

Answer 17

[H+][A-]/[HA]

Question 18

pH = measurement of how many H+ in a solution = ?

Answer 18

-log10[H+]

Question 19

Henderson Hasselbach Equation connects Ka of a weak acid with the pH of a solution containing this acid. The equation is…

Answer 19

pH = pKa + log[A-]/[HA]

pKa - pH = log[HA]/[A-]

Question 20

Primary protein structure describes…

Answer 20

The specific sequence of amino acids in a chain

Question 21

Secondary protein structure describes…

Answer 21

The hydrogen-bonded 3D arrangement of the chain
α-helix (one peptide chain spiralled; right-handed)
B-stranded-sheet or B-pleated-sheet

Question 22

Tertiary protein structure describes…

Answer 22

The arrangement of the chain in space and forces stabilising the structure

Question 23

Quaternary protein structure describes…

Answer 23

Association of non-protein groups to the chain

e.g. haemoglobin, myoglobin

Question 24

What is the central dogma?

Answer 24

DNA is transcribed to RNA, which is translated into protein

Question 25

A nucleoside has…

Answer 25

5C sugar + organic base

Question 26

A nucleotide has…

Answer 26

5C sugar + organic base + phosphate group(s)

Question 27

Pol II synthesises only stable RNA. True/False?

Answer 27

False

Pol II synthesises all RNA. Pol I and III synthesise only stable RNA

Question 28

DNA polymerase has 3 important characteristics

Answer 28

Can only add to existing nucleic acids
Cannot start synthesis on its own
Requires an RNA primer to start replication

Question 29

Enzymes can affect the equilibrium position of a reaction. True/False?

Answer 29

False

Question 30

How do enzymes lower the activation energy of a reaction?

Answer 30

Bind to and stablise the transition state and provide alternative reaction pathways

Question 31

Enzyme without a cofactor is called a…

Answer 31

Apoenzyme

Question 32

Enzyme with a cofactor is called a…

Answer 32

Holoenzyme

Question 33

Induced fit model describes enzyme-substrate interaction by…

Answer 33

Binding of substrate induces a conformational change in the enzyme, resulting in complementary fit

Question 34

Trypsin and chymotrypsin work in the ____ and have an optimum pH of _

Answer 34

Small intestine, 7

Question 35

What are isozymes?

Answer 35

Catalyse same reactions as enzymes but have different properties and structure

Question 36

CK is an isozyme. The M form is produced in ____ and the B form is produced in the ___. MB form is produced in the ___

Answer 36

Skeletal muscle, brain, heart

Question 37

Which enzymes carry out phosphorylation?

Answer 37

Kinases

Question 38

What are zymogens?

Answer 38

Inactive precursors of an enzyme

Question 39

Where are trypsinogen and chymotrypsinogen formed? Why is it important they are produced inactive?

Answer 39

Pancreas

They would digest the pancreas if active

Question 40

Which enzyme activates trypsinogen? Where does this occur?

Answer 40

Enteropeptidase

Small intestine

Question 41

Vmax is?

Answer 41

The maximal rate of reaction at unlimited substrate concn

Question 42

Km is?

Answer 42

The concn of substrate which gives 50% maximal rate, i.e. 0.5Vmax

Question 43

A low Km means…

Answer 43

An enzyme only needs a little substrate to work at 0.5Vmax (it has high affinity)

Question 44

Vmax can be obtained from a Lineweaver-Burk plot by looking at the interesection with the X axis. True/False?

Answer 44

False

Intersection with X axis is Km; intersection with Y axis is Vmax

Question 45

In competitive inhibition, Vmax is ___ and Km is ___

Answer 45

The same, increased

Question 46

In non-competitive inhibition, Vmax is ___ and Km is ___

Answer 46

Decreased, the same

Question 47

Orthosteric enzymes follow M-M kinetics and the curve is shaped like a ____

Answer 47

Hyperbola

Question 48

Allosteric enzyme do not follow M-M kinetics and the curve is shaped like a ___

Answer 48

Sigmoid

Question 49

In the absence of a substrate, most enzyme subunits are in the inactive _ form. The presence of substrate shifts equilibrium from the inactive form to the active _ form

Answer 49

T (inactive), R (active)

Question 50

GLUT3 is located in the…

Answer 50

Brain

Question 51

GLUT5 is located in the…

Answer 51

Gut

Question 52

In glycolysis, glucose (6C) is converted into…

Answer 52

2 x pyruvate (3C each)

Question 53

In glycolysis, there is a net gain of how many ATP?

Answer 53

2 ATP

Question 54

The _, _ and _ reactions in glycolysis are control points (irreversible as they are very exergonic)

Answer 54

1st, 3rd and final

Question 55

3 enzymes involved in the glycolysis control points

Answer 55

Hexokinase, phosphofructokinase, pyruvate kinase

Question 56

We must reoxidise NADH to form __ in order to continue ATP synthesis after glycolysis

Answer 56

NAD+

Question 57

Pyruvate conversion to lactate occurs when?

Answer 57

Low oxygen - muscle cells work very hard to allow glycolysis to continue
NAD+ is regenerated by oxidation of NADH

Question 58

What is the substrate for the TCA cycle?

Answer 58

Acetyl-CoA

Question 59

Where does TCA cycle occur?

Answer 59

Mitochondria (mainly central matrix and then cristae)

Question 60

What is the fate of pyruvate before TCA cycle?

Answer 60

Enters mitochondria, where PDC catalyses oxidative decarboxylation of pyruvate to acetyl-CoA
2CO2 released in total

Question 61

Citric acid (6C) is formed by the combination of which 2 molecules?

Answer 61

Oxaloacetate (4C) + Acetyl-CoA (2C)

Question 62

How many cofactors are reduced in total in TCA cycle?

Answer 62

4 - 3x NAD+ and 1x FAD+

Question 63

GDP conversion to GTP is known as…

Answer 63

Substrate level phosphorylation

Question 64

Succinate hydrogenase uses FAD+ as a cofactor. It is the one enzyme of TCA cycle that is located in the central matrix. True/False?

Answer 64

False

It is the only enzyme located in the cristae - all others located in the central matrix

Question 65

Lipids are converted to ______ and then ____ which enters TCA cycle

Answer 65

Fatty acids, Acetyl-CoA

Question 66

Each turn of TCA cycle involves the uptake and release of how many carbon atoms, and in what form?

Answer 66

2C uptake as Acetyl-CoA, 2C released as 2CO2

Question 67

Glycolysis + PDC + TCA cycle reactions = _NADH, _H+, _FADH2

Answer 67

10NADH, 10H+, 2FADH2

Question 68

Each NADH and FADH2 molecule contains how many electrons?

Answer 68

2

Question 69

A -ve electron transfer potential means…

Answer 69

Substance is more likely to donate electrons than hydrogen

Question 70

What is the function of Co-enzyme Q?

Answer 70

Pick up electrons from Complex 1 or 2 and donate them to Complex 3

Question 71

Transfer of electrons through the respiratory chain is coupled to transport of _ from the mitochondrial matrix to the intermembrane space

Answer 71

H+

Question 72

Key point of oxidative phosphorylation:
Electrons from NADH and FADH2 reduce O2 to __
e- energy is used to pump protons from the matrix to the _____, causing matrix pH to ____
Protons follow their concn and flow across the membrane - this energy is used to phosphorylate ___ to ___

Answer 72

H2O
Intermembrane space, pH to increase (and intermembrane space pH to decrease)
ADP to ATP

Question 73

1 glucose molecule yields how many ATP molecules in total?

Answer 73

30-32 ATP