AQA Unit 1 part 2 Flashcards
Describe two differences between the structure of the triglyceride shown in Figure 2 and a phospholipid.
(Triglyceride)
- 3 fatty acids rather than 2;
- 3 ester bonds rather than 2;
Accept ‘only 2 fatty acids’
- No phosphate group;
1, 2 and 3 Accept converse
Explain why phospholipids can form a bilayer but triglycerides cannot.
- Phospholipid both hydrophobic and hydrophilic
OR Phospholipid polar
OR Phosphate group is charged;
- Triglycerides only hydrophobic
OR Fatty acid/triglyceride is non-polar;
Accept ‘Triglycerides not hydrophilic’
- Hydrophilic/phosphate group attracts water (to either side of bilayer); Accept ‘faces water’ for ‘attracts water’
Ignore ‘fatty acids repel water’
The DNA-replication enzymes of a human cell make copies of the human papilloma virus genome.
Name two enzymes that are involved in replicating the DNA of the human papilloma virus and describe their roles in the replication process.
Name of enzyme 1 ___________________________________________________
Role of enzyme 1 ____________________________________________________
Name of enzyme 2 ___________________________________________________
Role of enzyme 2 ____________________________________________________
- (DNA) helicase and (DNA) polymerase;
- (Helicase) breaks hydrogen bonds (to unwind DNA);
Reject ‘hydrolyse hydrogen bonds’
- (Polymerase) condensation reactions to join (adjacent) nucleotides
OR (Polymerase) forms phosphodiester bonds between (adjacent) nucleotides;
Reject mp3 if polymerase forming hydrogen bonds or joining complementary base pairs
Complete the passage with the appropriate terms.
ATP synthase comprises several polypeptides, so is said to have
a _______________ structure.
It catalyses the synthesis of an ATP molecule by a _______________
reaction; this involves the _______________ of a water molecule.
The ATP synthase in the figure above is in a mitochondrion so would catalyse reactions during _______________.
Quaternary
Condensation/phosphorylation/redox
Release/loss/formation
(Aerobic) respiration;;
One function of ATP synthase is to catalyse the synthesis of ATP.
Suggest how the shape of the ATP synthase allows it to have this functions.
Explain your answer.
- Active site complementary to ADP + Pi;
- Enzyme-substrate complex forms;
‘E-S’ alone is insufficient
Galacto-oligosaccharides (GOS) are polymers of galactose. Explain why GOS are described as polysaccharides.
- Galactose is a monosaccharide/monomer;
- (Polysaccharide is a) carbohydrate polymer;
- (Several) monosaccharides/monomers/galactose joined by condensation reactions
OR (Several) monosaccharides/monomers/galactose joined by glycosidic bonds;
Give two differences between the structures of the polysaccharide Galacto-oligosaccharides (GOS) and lactose.
- Lactose contains (alpha) glucose and GOS does not
OR Lactose contains (alpha)glucose + galactose and GOS contains only galactose;
- Lactose is a disaccharide and GOS is a polysaccharide;
- Lactose has one glycosidic bond and GOS has many glycosidic bonds; Accept ‘more than one’ for many
Explain why amylase produced in the human digestive system does not digest Galacto-oligosaccharides .
- Active site (only) complementary to starch
OR Active site not complementary to GOS;
Ignore ‘hydrolysis’
- (Due to) tertiary structure;
Describe the hydrolysis reactions involved in the digestion of triglycerides.
Do not write about the activity of lipase.
- Breaking of ester bonds;
- By addition of water;
Accept ‘using’, ‘with’ for addition
Complete Table 1 by giving all headings, units and volumes required to make 30 cm3 of the concentration of the copper sulphate solution shown.
Outline the similarities in, and the differences between, the structures of DNA and RNA molecules. (6)
Similarities
- Polymers of nucleotides; Accept ‘chain’ for polymer
- (Nucleotide has) pentose, (nitrogen-containing organic) base and a phosphate (group); ‘ribose/deoxyribose’ for pentose
- Cytosine, guanine and adenine (as bases);
- Have phosphodiester bonds;
Differences
- Deoxyribose v ribose;
- Thymine v uracil;
- Long v short; Accept DNA longer
Ignore ‘large’ and ‘small’
- Double helix/stranded v single stranded;
Outline the similarities in, and the differences between, the structures of chloroplasts and mitochondria. (5)
Similarities
- Double membrane;
- Both contain (circular) DNA;
- Both contain ribosomes; Ignore numbers in front of ribosomes
Differences
- Thylakoids/lamellae/grana v cristae;
- Stroma v matrix;
- Pigments v no pigments; Accept ‘chlorophyll v no chlorophyll’
- Starch grains v no starch grains;
Max 3 marks for differences
- RNA/rRNA;
- Protein;
Reject tRNA and mRNA
Ignore amino acids
- DNA has deoxyribose, mRNA has ribose;
- DNA has thymine, mRNA has uracil;
- DNA long, mRNA short;
- DNA is double stranded, mRNA is single stranded
Accept ‘double helix’ for ‘double stranded’ and ‘single helix’ for ‘single stranded’
- DNA has hydrogen bonds, mRNA has no hydrogen bonds
OR
DNA has (complementary) base pairing, mRNA does not;
4 max
Must be comparisons
Ignore splicing/introns
State how enzymes help reactions to proceed quickly at lower temperatures.
Do not write about active sites in your answer.
Lower/reduce activation energy (needed to start a reaction);