Intro to biochemistry

Question 1

what determines the reactivity of an atom?

Answer 1

the number of electrons
unfilled outer orbital shells = reactive
filled outer orbital shells = stable

Question 2

what is a covalent bond?

Answer 2

sharing of electron pairs

Question 3

what is an ionic bond?

Answer 3

attraction of opposite charges

Question 4

what is a hydrogen bond?

Answer 4

sharing of H atom

Question 5

what is a hydrophobic interaction?

Answer 5

interaction of non-polar substances in the presence of polar substances

Question 6

what is a van der walls interaction?

Answer 6

interaction of electrons of non polar substances

Question 7

what is the order of bond energies?

Answer 7

covalent
ionic
hydrogen
hydrophobic interactions
van der walls interaction

Question 8

can different atoms make different numbers of covalent bonds?

Answer 8

yes
H = 1
O = 2
S = 2
N = 3
C = 4
P = 5

Question 9

how many covalent bonds can carbon make? what shape does this make?

Answer 9

4

tetrahedral

Question 10

what is electronegativity? what has the highest?

Answer 10

attractive force that an atomic nucleus exerts on electrons

oxygen

Question 11

what is involved in acylation?

Answer 11

addition of an acyl group
-C-R
II
O

Question 12

what is carboxylation?

Answer 12

addition of a carboxyl group

end of a carboxylic acid

Question 13

what is esterification?

Answer 13

OH group replaced by an O-alkyl group

Question 14

condensation vs hydrolysis?

Answer 14

condensation = two compounds joined by water being removed
hydrolysis = break up compound by adding water

Question 15

what happens during a redox reaction?

Answer 15

electrons transferred from one molecule to another
as one molecule is oxidised another is reduced
AH + B <> A + BH

Question 16

what are the oxidation states of carbon?

Answer 16

alkane (fats) > alcohol (carbohydrates) > aldehyde > carboxylic acid > carbon dioxide (final product of catabolism)

Question 17

name 5 functions of biomolecules in the body

Answer 17

info storage (DNA)
structure (teeth, bones etc)
energy generation (glycolysis, krebs etc)
energy currency/storage (ATP)
recognition/communication/specificity (receptors, hromones, enzymes etc)

Question 18

name 3 disaccharides

Answer 18

lactose
maltose
sucrose

Question 19

what is on the end of a disaccharide?

Answer 19

free anomeric carbon (reducing end)

HOH

Question 20

bonding partners and energy in a reaction never change, true or false?

Answer 20

false
matter and energy are neither created nor destroyed
eg. protons and electrons transferred from propane to oxygen to form water

Question 21

every energy transformation is 100% efficient, true or false?

Answer 21

false

no energy transformation is 100% efficient (2nd law of thermodynamics)

Question 22

what will happen to a system if energy is not applied?

Answer 22

it will be randomly arranged or disordered

it takes order to impose order on a system

Question 23

ΔG = ΔGo’ + RTln([C][D]/[A][B]) for A + B > C + D?

Answer 23

determines free energy
R = universal gas constant (8.3JK-1mol-1)
T = temp in kelvin
ΔGo’ = free energy change under standard conditions
unit = kJ/mol

Question 24

what are the biochemical standard conditions?

Answer 24

T = 298K
1 atm pressure
1 M (1 mol/l) conc of reactants
pH 7

Question 25

how is ΔG related to the point of equilibrium?

Answer 25

further towards point of equilibrium = more free energy released
ΔG near zero = readily reversible reaction

Question 26

what is Keq?

Answer 26

equilibrium constant

for reaction A + B > C + D, Keq = [C] [D] / [A] [B]

Question 27

what will increasing [A] [B] relative to [C] [D] do to ΔG?

Answer 27

[C] [D] / [A] [B] becomes smaller than 1
the ln of a number smaller than 1 is negative
ΔG becomes negative

Question 28

name 2 cellular processes that are unfavourable, how is this overcome?

Answer 28

transport against a gradient
synthesis of large molecules
overcome by coupling to highly favourable processes

Question 29

give an example of coupling

Answer 29

ADP + Pi > ATP + H2O (ΔG = +55)
PEP + H2O > pyruvate + Pi (ΔG = -78)
Joined together to form
PEP + ADP > pyruvate + ATP (ΔG = -23)

Question 30

ATP + H2O > ADP + Pi = very favourable, true or false?

Answer 30

true

ΔG = -30

Question 31

ADP is less stable than ATP, true or false?

Answer 31

false

ADP is more stable due to the strain the closely packed electric charges put on ATP

Question 32

what bonds gold ATP phosphates together?

Answer 32

phosphoanhydride bonds (high energy bonds)

Question 33

why is ATP constantly regenerated?

Answer 33

cells don't store large amounts of it
active cells (eg. muscle cells) use a lot of it

Question 34

how is ATP regenerated?

Answer 34

using creatine phosphate or using 2 ADP <> ATP + AMP

Question 35

components of metabolism?

Answer 35

catabolism = breaking things, releasing energy
anabolism = making things, using energy

Question 36

example of a catabolic pathway?

Answer 36

glycolysis

glucose broken down to form 2 ATP

Question 37

example of an anabolic pathway?

Answer 37

gluconeogenesis
making new glucose from non carbohydrate compunds
costs energy

Question 38

what reactions are useful as control points?

Answer 38

those with large -ve ΔG values

Question 39

water is a bent polar molecule, what does this mean?

Answer 39

polar = electrons shared unequally
bent = forms a dipole

Question 40

what substances dissolve in water?

Answer 40

ionic and polar (hydrophilic)

Question 41

what is a hydrogen bond?

Answer 41

covalent bond between hydrogen and a more electronegative atom (eg. oxygen) creates polarized bond
the hydrogen ca interact with unshared electrons from another electronegative atom

Question 42

what is the charge on the hydrogen in a hydrogen bond?

Answer 42

hydrogen has partial +ve charge

Question 43

what is the shape of a hydrogen bond?

Answer 43

tend to be linear

Question 44

what are hydrocarbons?

Answer 44

compounds consisting of carbon and hydrogen
very non-polar and hydrophobic
excluded by water (don’t mix)

Question 45

how do water molecules interact with each other?

Answer 45

power attraction between them

prefer to interact with themselves rather than non-polar molecules

Question 46

what is the hydrophobic effect?

Answer 46

oil and water don’t mix

Question 47

what are amphipathic molecules?

Answer 47

hydrophilic and hydrophobic
hydrophilic head and hydrophobic tail
form micelles in water

Question 48

example of an amphipathic molecule?

Answer 48

sodium palminate (fatty acid)

Question 49

what types of lipids are present in the cell membrane?

Answer 49

structural (lipid bilayer)

precursors of signalling molecules (DAG, IP3)

Question 50

all amino acids contain an alpha-carbon bonded to what?

Answer 50

amino group (NH2)
carboxy group (COOH)
hydrogen
side chain (R)

Question 51

what are D and L forms of amino acids?

Answer 51

stereoisomers

non-superimposable mirror images

Question 52

what are the 4 types of amino acid, what determines this?

Answer 52

non-polar, hydrophobic
polar, uncharged
acidic
basic
determined by side chain

Question 53

how is a peptide bond formed?

Answer 53

two amino acids joined together via removal of water molecule forming the CO-NH bond

Question 54

what is the direction of a peptide chain?

Answer 54

always N terminal to C terminal

Question 55

name 3 characteristics of a peptide bond

Answer 55

partial double bond character
planar
strong and rigid (important for protein folding)

Question 56

what is an acid/base and what determines the strength\?

Answer 56

acid = donates a proton
base = accepts a proton
strength of an acid depends on how readily it donates a proton

Question 57

how is the strength of an acid measured?

Answer 57

dissociation constant Ka
Ka = [H+] [A-] / [HA]
HA = acid
A- = conjugate base

Question 58

what is pH and how is it calculated?

Answer 58

amount of protons in a solution
pH = -log10[H+]
pKa = -log10[Ka]

Question 59

what effect does the log have on pH change?

Answer 59

1 unit pH change implies a tenfold change on proton conc

Question 60

what is log?

Answer 60

log of X to base n is the number of times n has to multiplied by itself to result in X
e.g log(10)1000 = 3

Question 61

what is the Henderson hasselbach equation?

Answer 61

connects Ka of a weak acid with the pH of a solution containing this acid
pH = pKa + log[A-]/[HA]
lets you calculate the properties of buffer solutions

Question 62

at what value do buffers tend to resist a change of pH on addition of moderate amounts of acid or base

Answer 62

at their pKa value

Question 63

what do titration curves show?

Answer 63

plots pH as a function of base added to an acid

close to pKa the pH remains the same in response to addition of base

Question 64

what is a zwitterion?

Answer 64

amino acid without a charged side chain in neutral solution
have no net charge
contain 2 titratable groups and therefore 2 pKa values

Question 65

what is the isoelectric pH?

Answer 65

pH at which a molecule has no net charge

Question 66

what would a titration curve of a zwitterion (e.g alanine) look like?

Answer 66

sigmoidal with 2 horizontal parts ( pKa values)

Question 67

how can proteins act as buffers? give an example

Answer 67

ends of proteins and several amino acid side chains can be ionised
e.g haemoglobin in blood

Question 68

polypeptides rotate around the angles between what?

Answer 68

alpha carbon and amino group

alpha carbon and carboxyl group

Question 69

what is secondary structure and what are the 3 types?

Answer 69

hydrogen bonded 3D arrangement of a polypeptide chain (backbone)
alpha helix
beta strand/sheet
triple helix

Question 70

describe alpha helix

Answer 70

one polypeptide chain in (usually right handed) coil

CO group of one amino acid forms hydrogen bond with NH group of another amino acid 4 residues away

Question 71

what breaks an alpha helix?

Answer 71

proline residues

Question 72

describe beta sheets?

Answer 72

polypeptide backbone extended (can involve more than 1)
can be parallel or antiparralel
turns between strands (glycine and proline)

Question 73

what is a beta pleated sheet?

Answer 73

repeated zig zag structure

Question 74

can different 2ndary structures occur in same protein?

Answer 74

yes

e.g - phosphoglycerate kinase

Question 75

describe collagen triple helix

Answer 75

3 left handed helical chans twisted around each other forming a right handed superhelix
repeated sequence of X-Y-Gly in all strands (X = amino acid, Y = proline or hydroxyproline)
H bonds between chains, covalent bonds inside chains

Question 76

where are triple helixes most found? Give an example

Answer 76

most common protein in vertebrates
component of bone and connective tissue
E.g - tropocollagen

Question 77

what is the importance of collagen?

Answer 77

give strength of connective tissue

can cause scurvy or bleeding gums if lacking

Question 78

what does tertiary structure of proteins give?

Answer 78

fibrous or globular proteins

arrangement of atoms of polypeptide in space

Question 79

what is the difference between fibrous and globular proteins?

Answer 79

fibrous = chains organised in parallel along single axis, long strong fibres (e.g keratin in hair, collagen of connective tissue)
globular = proteins folded to more or less spherical shape, soluble (myoglobin, haemoglobin)

Question 80

what forces stabilise tertiary structures?

Answer 80

covalent disulphide bonds
salt bridges
hydrophobic interactions
H bonds (backbone/side chains)
complex formation with metal ions

Question 81

how are disulphide bridges formed?

Answer 81

CH2-SH–SH-CH2
becomes (with loss of 2H)
CH2-S-S-CH2

Question 82

give an example of an electrostatic interaction in proteins

Answer 82

salt bridges

Question 83

give an example of hydrophobic interaction in proteins

Answer 83

amino acids with hydrophobic side chains tend to cluster in the centre of globular proteins

Question 84

what would happen if a mutation in a given protein changes a glutamic acid to a valine?

Answer 84

functional change
glutamic acid = -ve charge, can form ionic bonds or hydrogen bonds with water or other amino acid side chains
valine = hydrophobic, interacts with other hydrophobic amino acids

Question 85

how does sickle cell anaemia arise?

Answer 85

single nucleotide sequence change in coding region of beta chain of haemoglobin A changing glutamic acid to valine

Question 86

what does sickle cell anaemia result in?

Answer 86

altered protein meaning haemoglobin polymerises under low O2 conditions resulting in rigid, sickle shaped cells that can block blood flow in capillaries

Question 87

how do proteins fold?

Answer 87

primary structure contains info for 3D shape
can fold spontaneously but this is slow and can fold incorrectly or associate with other proteins before properly folded
Can be aided by chaperones

Question 88

what diseases can result from problems in protein folding?

Answer 88

mad cow disease (infection)
Creutzfeld-jacob disease
presence of disease causing prion protein PrPSc

Question 89

what physical things can denature a protein by disrupting its structure?

Answer 89

heat
extreme pH
detergents, urea, guanidine hydrochloride (disrupt hydrophobic interactions)
thiol agents, reducing agents (disrupt disulphide bond)

Question 90

structure of myoglobin?

Answer 90

globular protein with haem group which contains iron ion (Fe2+ - prosthetic group)
haem binds O2 (1 O2 per myoglobin)
stores O2 in muscle

Question 91

structure of haemoglobin?

Answer 91

4 subunits (2 alpha and 2 beta chains)
each contains a haem
can bind 4 O2
transports O2 in blood

Question 92

how does binding of one O2 affect the haemoglobin molecule?

Answer 92

binding of one O2 changes affinity of the other subunits for O2