Year 13 AQA Bio Flashcards

Question 1

Q

Describe the light dependent reaction (9)

Answer

A

Chlorophyll absorbs light energy & Excites electrons
Chlorophyll loses electrons (Oxidation of chlorophyll) via photoionisation;
Electrons move along carriers/electron transport chain releasing energy (Series of REDOX reactions)
Energy released (by electrons) used to form proton gradient;
H+ ions move through ATP synthase;
providing energy to join ADP and Pi to form ATP;
Photolysis of water produces 2 protons, 2 electrons and ½ oxygen;
NADP reduced by electrons / electrons and protons / hydrogen;

Question 2

Q

Describe the light independent reaction (Calvin Cycle)

Answer

A

Carbon dioxide combines with ribulose bisphosphate/RuBP;
Produces two glycerate (3-)phosphate/GP;
GP reduced to triose phosphate;
Using reduced NADP;
Using energy from ATP;
Triose phosphate converted to glucose/RuBP/ other named organic substance;

Question 3

Q

ATP is produced in the light dependant reaction, suggest why this is not their (plants) only source of ATP. (4)

Answer

A

Plants don’t photosynthesis in the dark;
Not all the parts (e.g. roots) of the plants photosynthesise;
Plants require more ATP than is produced in the light dependant reaction;
ATP used in Active Transport (accept other named processes)

Question 4

Q

Describe the effect of introducing a herbicide/inhibitor on the electron transport chain

Answer

A

Reduced transfer of protons across thylakoid membrane
OR
* Reduced chemiosmotic gradient/proton gradient across thylakoid membrane;
* (So) less ATP produced;
* (So) less reduced NADP produced;
* (So) light-independent reaction rate decreases / slows / stops
OR
* Less reduction of GP to triose phosphate;

Question 5

Q

Describe what happens during PHOTOIONISATION in the light dependent reaction.

Answer

A

Chlorophyll absorbs light OR Light excites/moves electrons in chlorophyll;
Electron/s are lost OR (Chlorophyll) becomes positively charged OR Chlorophyll is OXIDISED

Question 6

Q

When producing a chromatogram explain why the origin is marked using a pencil rather than ink.

Answer

A

Ink and (leaf) pigments would mix OR (With ink) origin/line in different position
OR
(With pencil) origin/line in same position OR (With pencil) origin/line still visible;

Question 7

Q

While making a chromatogram, describe the method used to separate the pigments after the solution of pigment had been applied to the origin.

Answer

A

Level of solvent below origin/line;
Remove/stop before (solvent) reaches top/end;

Question 8

Q

Suggest and explain the advantage to plants of having different colour pigments in leaves.

Answer

A

Absorb different/more wavelengths of light for faster rates of photosynthesis;

Question 9

Q

Describe the need for plants to both photosynthesise AND respire (6)

Answer

A

In the dark no ATP production in photosynthesis;
Some tissues (e.g. roots) unable to photosynthesise/produce ATP;
ATP cannot be moved from cell to cell/stored;
Plant uses more ATP than produced in photosynthesis;
ATP for active transport;
ATP for synthesis (of named substance);

Question 10

Q

Describe the process of succession

Answer

A

(Colonisation by) pioneer species;
Pioneers cause change in environmental abiotic / biotic factors(give an example);
Pioneers make the environment less hostile for new species;
New species change/make conditions less suitable for previous species;
Change/increase in diversity/biodiversity;
Stability increases [population/richness/abiotic factors];
Climax community;

Question 11

Q

Explain how succession results in a wide variety of fish living on coral reefs. (3)

Answer

A

Increase in variety/diversity of species/plants/animals; OR Increase in number of species/populations; OR Increase in species richness / biodiversity
Provides more/different habitats/niches OR Provides greater variety/types of food OR becomes less hostile;

Question 12

Q

Describe random sampling
[estimation of population density]

Answer

A

Use a grid / split area into squares/sections;
Method of obtaining random coordinates / numbers, e.g. calculator/computer/random numbers table/random number generator;
Count number/frequency of plants in a quadrat;
Large sample (20+ quadrats) AND Calculate mean/average number (per quadrat/section);
Valid method of calculating total number of ……… e.g. mean number of plants per quadrat/section/m2 multiplied by number of quadrats/sections/m2 in wood;

Question 13

Q

Describe systematic sampling (3)

Answer

A

Transect/lay line/tape measure (from one side of the dune to the other);
Place quadrats at regular intervals along the line;
Count plants/percentage cover/abundance scale (in quadrats) OR Count plants and record where they touch line/transect;

Question 14

Q

Describe how you would determine the mean percentage cover for beach grass on a sand dune.

Answer

A

Method of randomly determining position (of quadrats) e.g. random numbers table/generator;
Large number/sample of quadrats; (min 20)
Divide total percentage by number of quadrats/samples/readings;

Question 15

Q

Describe a method that could be used to determine the mean percentage cover of algae on a coral reef. (3)

Answer

A

Method of randomly determining position (of quadrats) e.g. random numbers table/generator;
* Large number/sample of quadrats; (>20)
* Divide total percentage by number of quadrats/samples/readings;

Question 16

Q

Describe the mark, release, recapture technique

Answer

A

Capture sample, mark and release;
Appropriate method of marking suggested / method of marking does not harm fish;
Take second sample and count marked organisms;
No in No in Population = [No in sample1 × No in sample2] / Number marked in sample2;

Question 17

Q

The mark-release-recapture method can be used to estimate the size of a fish population.

Explain how.

Answer

A

Capture/collect sample, mark and release;
Ensure marking is not harmful (to fish) OR Ensure marking does not affect survival (of fish);
Allow (time for) fish to (randomly) distribute before collecting a second sample;
(Population =) number in first sample × number in second sample divided by number of marked fish in second sample/number recaptured;

Question 18

Q

Suggest why the mark-release-recapture method can produce unreliable results in very large lakes

Answer

A

Less chance of recapturing fish OR Unlikely fish distribute randomly/evenly;
Fish may remain in one area OR fish may congregate

Question 19

Q

Describe how you would determine how many quadrats to use when investigating a habitat.

Answer

A

Calculate running mean/description of running mean;
When enough quadrats, this shows little change/levels out (if plotted as a graph);
Enough to carry out a statistical test;
A large number to make sure results are reliable;
Need to make sure work can be carried out in the time available;

Question 20

Q

Name the two products of the light-dependent reaction that are required for the light-independent reaction.

Answer

A

ATP;
Reduced NADP;

Question 21

Q

Where precisely is rubisco found in a cell?

Question 22

Q

Explain why scientists measure the rate of production of oxygen in this investigation. (Rate of photosynthesis)

Answer

A

Oxygen produced in light-dependent reaction;
The faster (oxygen) is produced, the faster the light-dependent reaction.

Question 23

Q

Explain why plants that have more chlorophyll will grow faster than plants with less chlorophyll.

Answer

A

Have faster production of ATP and reduced NADP;
(So) have faster / more light-independent reaction;
(So) produce more sugars that can be used in respiration;
(So) have more energy for growth;
Have faster / more synthesis of new organic materials.

Question 24

Q

Explain the relationship between stomatal opening and photosynthesis.

Answer

A

Stomata allow uptake of carbon dioxide;
Carbon dioxide used in / required for photosynthesis;

Question 25

Q

Describe what happens during photoionisation in the light dependent reaction.

Answer

A

Chlorophyll absorbs light
OR

Light excites/moves electrons in chlorophyll;

Electron/s are lost
OR

(Chlorophyll) becomes positively charged;
OR
Chlorophyll is oxidised

Question 26

Q

Describe the process of glycolysis.

Answer

A

Phosphorylation of glucose using (2) ATP;
Oxidation of Triose phosphate to Pyruvate;
Net gain of ATP;
NAD is reduced;

Question 27

Q

Name two uses of ATP in a cell

Answer

A

Phosphorylation of (named substance) to make more reactive / Lowers activation energy;
Releases small manageable amounts of energy for (named process);

Question 28

Q

Describe how oxidation takes place in glycolysis and in the Krebs cycle. (4)

Answer

A

1. Removal of hydrogen/dehydrogenation;
1. by enzymes/dehydrogenases;
1. H accepted by NAD/reduced NAD formed;
1. In Krebs cycle, FAD (used as well);

Question 29

Q

Water is a waste product of aerobic respiration. Describe how water is formed at the end of aerobic respiration. (2)

Answer

A

Oxygen is terminal/final electron acceptor;
Combines with electrons and protons (to form water);

Question 30

Q

Explain how the amount of ATP is increased by reactions occurring inside a mitochondrion. (12)

Answer

A

oxidation of/removal of electrons and H+
from pyruvate
acetyl CoA / 6 carbon compound; (credit oxidative decarboxylation)
substrate level production of ATP / ATP produced in Krebs cycle;
production of reduced NAD / FAD (allow they take up hydrogen);
in matrix of mitochondria;
electrons fed into electron transport chain / used in oxidative phosphorlation
(Electrons) pass along carriers/through electron transport chain/through series of redox reactions;
Energy is released;
Protons move into intermembrane space;
ADP/ADP + Pi;
ATP synthase;

Question 31

Q

Describe the events of oxidative phosphorylation. (5)

Answer

A

NAD/FAD reduced / hydrogen attached to NAD/FAD;
H+ ions/electrons transferred from coenzyme to coenzyme/carrier to carrier (ETC on cristae of inner membrane)
Energy released (from electrons) through series of redox reactions;
Energy released used to pump H+/ protons into intermembrane space forming an electro-chemical gradient (of protons);
H+/ protons flow back through ATP synthase to produce ATP from ADP and phosphate.

Question 32

Q

Describe the roles of the coenzymes and carrier proteins in the synthesis of ATP (5)

Answer

A

NAD/FAD reduced / hydrogen attached to NAD/FAD;
H+ ions/electrons transferred from coenzyme to coenzyme/carrier to carrier (ETC on cristae of inner membrane)
Energy released (from electrons) through series of redox reactions;
Energy released used to pump H+/ protons into intermembrane space forming an electro-chemical gradient (of protons);
H+/ protons flow back through ATP synthase to produce ATP from ADP and phosphate

Question 33

Q

In many mammals, ‘uncoupling proteins’ help to maintain a constant body temperature during hibernation.

Suggest and explain how.

Answer

A

Allow passage of protons/H+;
(Energy) released as heat;

Question 34

Q

The mitochondria in muscles contain many cristae. Explain the advantage of this.

Answer

A

larger surface area for electron carrier system / MORE oxidative phosphorylation;
provide MORE ATP / energy for contraction;

Question 35

Q

Give two reasons why the respirometer was left for 10 minutes when it was first placed in the water bath.

Answer

A

Equilibrium reached;
Allow for expansion (gases/liquids) /pressure change in apparatus;
Allow respiration rate of seeds to stabilise;

Question 36

Q

Explain why a log scale is used to record the number of cells/bacteria (2)

Answer

A

Large range/difference/increase in numbers (of cells/bacteria);
Accept reference to exponential (increase)

Question 37

Q

Explain why converting pyruvate to lactate allows the continued production of ATP by anaerobic respiration (2)

Answer

A

Regenerates NAD / Oxidises reduced NAD;
(So) glycolysis continues;

Question 38

Q

Malonate inhibits a reaction in the Krebs cycle.

Explain why malonate would decrease the uptake of oxygen in a respiring cell (2)

Answer

A

Less/no reduced NAD/coenzymes OR Fewer/no hydrogens/electrons removed (and passed to electron transfer chain);
Oxygen is the final/terminal (electron) acceptor;

Question 39

Q

Define Biomass

Answer

A

Mass of carbon (organic compounds)
Dry mass of tissue per given area

Question 40

Q

Suggest what you should do to ensure all water is removed from a tissue / sample.

Answer

A

Regularly weigh and Heat (less than 100 °C)
Until mass is constant

Question 41

Q

Define Gross Primary Productivity

Answer

A

Chemical energy store in plant biomass, in a given area or volume. (Rate of photosynthesis)

Question 42

Q

Define Net Primary Production

4

Answer

A

Chemical energy store in plant biomass after respiratory losses to the environment have been taken into account.
NPP= GPP -R
NPP is available for new plant growth and reproduction OR available for other trophic levels in the ecosystem, such as herbivores and saprobionts.
kJ ha–1 year–1 OR kJ km–2 year–1 OR kJ km–3 year–1

Question 43

Q

The percentage of the light energy trapped by the producers is very low.

Give two reasons why.

3

Answer

A

Reflected / absorbed by water vapour;
Reflected from producers / wrong wavelength;
Transmitted / passes between chloroplasts/ between plants / too few chloroplasts;

Question 44

Q

In natural ecosystems, most of the light falling on producers is not used in photosynthesis.

Suggest two reasons why.

4

Answer

A

(Light is) reflected;

Light is not absorbed on its own is not enough.

(Light is) wrong wavelength;

Accept frequency for wavelength.

Accept reference to absorbing specified wavelengths/frequencies.

(Light) misses chlorophyll/ chloroplasts/photosynthetic tissue;
CO2 concentration or temperature is a limiting factor.

Question 45

Q

The biomass of primary consumers is less than the biomass of producers. Explain why.

4

Answer

A

Loss of energy/heat / use of energy / less energy to be passed on;
In respiration;
In excreta / excretion / urine / carbon dioxide;
Inedible parts / indigestible parts / egesta / egestion / to decomposers;

Question 46

Q

Describe how and explain why the efficiency of energy transfer is different at different stages in the transfer.

8

Answer

A

Some light energy fails to strike/is reflected/not of appropriate wavelength;
Efficiency of photosynthesis in plants is low/approximately
2% efficient;
Respiratory loss / excretion / faeces / not eaten;
Loss as heat;
Efficiency of transfer to consumers greater than transfer to producers/approximately 10%;
Efficiency lower in older animals/herbivores/ primary consumers/warm blooded animals;
Carnivores use more of their food than herbivores;

Question 47

Q

Explain how the intensive rearing of domestic livestock increases net productivity

5

Answer

A

Slaughtered when still growing/before maturity/while young so more energy transferred to biomass/tissue/production;
Fed on concentrate /controlled diet /controlled conditions/so higher proportion of (digested) food absorbed/lower proportion lost in faeces / valid reason for addition;
Movement restricted so less respiratory loss / less energy used;
Kept inside/heating/shelter / confined so less heat loss / no predators;
Genetically selected for high productivity;

Question 48

Q

Describe the need for plants to both photosynthesise AND respire

6

Answer

A

In the dark no ATP production in photosynthesis;
Some tissues unable to photosynthesise/produce ATP;
ATP cannot be moved from cell to cell/stored;
Plant uses more ATP than produced in photosynthesis;
ATP for active transport;
ATP for synthesis (of named substance);

Question 49

Q

Describe the role of saprobionts in the nitrogen cycle

3

Answer

A

decompose proteins
Releasing ammonia

Question 50

Q

Explain how carbon-containing compounds present in the pine leaves that fall from the trees are absorbed and used for growth by saprobionts/fungi that live in the soil.

5

Answer

A

extracellular digestion;
by secretion of enzymes;
absorption of digested/soluble products;
synthesis of structural compounds/named compound;.
respiration provide energy for growth

Question 51

Q

Nitrogen compounds in the plants are made available for the main crop after ploughing in spring.

Describe the role of microorganisms in this process.

6

Answer

A

proteins/amino acids broken down;
deamination/ammonification/ release of ammonium compounds;
By saprophytes/saprobionts/decomposers;
conversion to nitrates via nitrites;
by nitrifying bacteria/named bacterium;
nitrates absorbed into roots via active transport

Question 52

Q

Give two examples of biological molecules containing nitrogen that would be removed when a crop is harvested.

8

Answer

A

Amino acid/protein/ polypeptide/peptide;
nucleic acid/nucleotide/base;
DNA;
RNA / pre-mRNA / mRNA / rRNA / tRNA
ATP/ADP;
NAD/NADP (reduced or not);
Cyclic AMP/cAMP;
Chlorophyll;

Question 53

Q

Plants absorb a number of other nutrients from the soil including phosphates. Describe why phosphates are needed by a growing plant.

6

Answer

A

production of phospholipids;
in cell membranes;
synthesis of ATP;
production of DNA;
production of RNA;
production of NADP

Question 54

Q

Describe how a lack of phosphates in the soil surrounding a plant can affect its growth

4

Answer

A

(Required to) make ATP/glucose phosphate, soless respiration/less energy for growth;
(Required to) make nucleotides, so less DNA/mRNA/tRNA for cell division/production of protein (for growth);
(Required to) make RuBP/NADP, so less CO2 fixed/reduced into sugar;
(Required to) make phospholipids for membranes;

Question 55

Q

Outline the advantages of having Mycorrhizae

growth near plants

2

Answer

A

Mycorrhizae help plants to defend themselves (causing an increase in crop yield);
Mycorrhizae help plants to take up nitrates/phosphates (causing an increase in crop yield);

Question 56

Q

You are given samples of water from three different rivers.

Describe how you would obtain a quantitative measurement of their cloudiness.

3

Answer

A

Use of colorimeter;
Measure the absorbance/transmission (of light);
Example of how method can be standardised eg same volume of water, zeroing colorimeter, same wavelength of light, shaking the sample;

Question 57

Q

Describe the process of eutrophication.

8

Answer

A

Nitrates / Phosphates / Ammonium ions flushed/leached into waterway
Increased algal bloom
Light blocked out
Submerged aquatic plant unable to photosynthesise and die
Increase in saprobionts so increases rate of aerobic respiration
Saprobionts / aero.resp organismsn die as lack of oxygen (anoxic)
Increase in anaerobic microorganisms
Production of toxins

Question 58

Q

State three causes of genetic variation

4

Answer

A

Mutation
Crossing over
Independent segregation / assortment (of homologous chromosomes)
Random fusion of gametes / fertilisation / mating

Question 59

Q

What is meant by a genome?

3

Answer

A

‘(all) the ‘genes’/alleles’ ‘genetic material/code’ in a cell/organism/ person’
‘the total number of DNA bases in a cell/organism’
the full base sequence of all the genetic material of an organism

Question 60

Q

What is a ‘gene pool’?

Answer

A

All the alleles in a population.

Question 61

Q

How do multiple alleles of a gene arise?

2

Answer

A

mutations;
which are different / at different positions within the same gene;

Question 62

Q

In genetic crosses, the observed phenotypic ratios obtained in the offspring are often not the same as the expected ratios.

Suggest two reasons why.

5

Answer

A

Small sample size;
Fusion/fertilisation of gametes is random;
Linked Genes; Sex-linkage / crossing over;
Epistasis;
Lethal genotypes;

Question 63

Q

What is meant by a recessive allele?

3

Answer

A

Only expressed (in the phenotype) when homozygous
Not expressed in the heterozygote
Not expressed if dominant present

Question 64

Q

Define dominant allele

Answer

A

Always expressed within the phenotype

Answer 64

A

The frequency of alleles (of a particular gene);
Will stay constant from one generation to the next/over generations / no genetic change over time;
(3 of the following) Providing no mutation/no selection / population large / population genetically isolated / mating at random / no migration;

Answer 65

A

(Genes/loci) on same chromosome

Answer 66

A

The allele of one gene affects the expression of another in the phenotype;

Answer 67

A

Both alleles (equally) expressed in the phenotype;

Answer 68

A

Affected offspring MUST have at least one affected parent.
Unaffected parents ONLY have unaffected offspring.
If both parents are affected and have an unaffected offspring, both parents must be Heterozygous

Answer 69

A

Unaffected parents can have an affected offspring (if they are Heterozygous)

Answer 70

A

(Recessive) allele is always expressed in males / males have one (recessive) allele;
Females need two recessive alleles / females need to be homozygous recessive / females could have dominant and recessive alleles / be heterozygous;

Answer 71

A

9 : 3 : 3 : 1

Answer 72

A

9 : 4 : 3

or

15:1

or

9:7

Answer 73

A

3:1 (if no crossing over)
(no other pattern other than 4 phenotypes with recombination of alleles)

Answer 74

A

(Expression / appearance / characteristic due to) genetic constitution / genotype / allele(s);
(Expression / appearance / characteristic due to) interaction with environment;

Answer 75

A

Change in sequence of amino acid(s) / primary structure (of polypeptide);
Change in (position of) hydrogen, ionic, disulfide bonds;
Alters tertiary structure;

Answer 76

A

Homologous pairs of chromosomes associate / form a bivalent;
Chiasma(ta) form;
(Equal) lengths of (non-sister) chromatids / alleles are exchanged;
Producing new combinations of alleles;

THIS IS ‘RARE’ = Unequal chance of recombinant alleles forming.

Less recombinant gametes form

Answer 77

A

Mitosis given first

One division, two divisions in meiosis;
(Daughter) cells genetically identical, daughter cells genetically different in meiosis;
Two cells produced, (usually) four cells produced in meiosis;
Diploid to diploid/haploid to haploid, diploid to haploid in meiosis;
Separation of homologous chromosomes only in meiosis;
Crossing over only in meiosis;
Independent segregation only in meiosis;

Answer 78

A

48% [2]

q2=0.36 or (36/100)

so, q=0.6 and P=0.4

Therefore, 2 x 0.4 x 0.6 x [100] = 48%

2Pq [1]

0.48 [1]

Answer 79

A

0.25; [1]

WNWV = 1x 255 = 255

WNWV = 2 x 85 = 170

Therefore, (255 + 170) divided by (1700) = 0.25

Frequency is always shown as a proportion of 1.

Answer 80

A

48% [2]

P=0.4 so, q=0.6

2Pq [1]

0.48 [1]

= 2 x 0.4 x 0.6 x [100] = 48% [2]

Answer 81

A

CBCB, CBCP and CBCY;

Answer 82

A

No STATISTICAL TEST: Differences could be due to CHANCE
Data is for only ONE (named) species
Data only collected in a lab / In vitro
Only tested on males / females. Observations may differ in females / males
Data is subjective
Data only collected for ………….days / weeks / years
Long term side effects are not known
At no point is the ……… 100% effective.

Answer 83

A

Totipotent cells can give rise to all cell types;
Pluripotent can only give some cell types;

Answer 84

A

{not all / different} genes are switched {on / off} /active / activated ;
correct and appropriate reference to factors / mechanisms for gene switching ;
e.g. reference to promoters / transcription factors

Answer 85

A

signal protein {binds to / joins to / interacts with / activates}
receptor on surface membrane;
messenger molecule moves from cytoplasm and enters nucleus;
{produces / activates} transcription factor;
binds to promoter region;
RNA polymerase transcribes target gene;

Answer 86

A

Oestrogen is lipid soluble so diffuses through the Oestrogen diffuses through the phospholipid cell membrane;
attaches to ERα receptor;
ERα receptor changes shape / Tertiary structure;
ERα receptor leaves protein complex which inhibited it’s action;
oestrogen receptor binds to promoter region;
enables RNA polymerase to transcribe target gene

Answer 87

A

Similarities; 2 max
* Polynucleotides/polymer of nucleotides;
* Contain Adenine, Guanine, Cytosine;
* Have pentose sugar/5 carbon sugar;
* Double stranded/hydrogen bonds/base pairs.

Differences; 2 max
* dsRNA contains uracil, DNA contains thymine;
* dsRNA contains ribose DNA contains Deoxyribose;
* dsRNA is Shorter than DNA; fewer base pairs in length;

Answer 88

A

Methylation prevents / inhibits transcription of (named) gene;
Protein not produced that prevents cell division / causes cell death / apoptosis;
No control of mitosis.

Answer 89

A

Increased) methylation (of tumour suppressor genes);
Mutation (in tumour suppressor genes);
Tumour suppressor genes are not transcribed/expressed
OR
Amino acid sequence/primary/ tertiary structure altered;
(Results in) rapid/uncontrollable cell division;

Answer 90

A

mass of undifferentiated / unspecialised / totipotent cells;
uncontrolled cell division
metastasis / (cells break off and) form new tumours / spread to other parts of body;

Answer 91

A

(DNA altered by) mutation;
(mutation) changes base sequence;
of gene controlling cell growth / oncogene / that monitors cell division;
of tumour suppressor gene;
change protein structure / non-functional protein / protein not formed;
(tumour suppressor genes) produce proteins that inhibit cell division;
mitosis;
uncontrolled / rapid / abnormal (cell division);
malignant tumour;

Answer 92

A

(Increased) methylation (of tumour suppressor genes);
- Mutation (in tumour suppressor genes);
Tumour suppressor genes are not transcribed / expressed OR Amino acid sequence / primary structure altered;
(Results in) rapid/uncontrollable cell division;

Answer 93

A

Heritable phenotype changes (gene function) that do not involve alterations in the DNA sequence/mutation.

Answer 94

A

extracellular digestion;
by secretion of enzymes;
absorption of digested/soluble products;
synthesis of structural compounds/named compound;.
respiration provide energy for growth

Answer 95

A

Nitrates / Phosphates / Ammonium ions flushed into waterway
Increased algal bloom light blocked out
Submerged aquatic plant unable to photosynthesise and die
Increase in saprobionts so increases rate of aerobic respiration
Saprobionts / aero.resp organismsn die as lack of oxygen (anoxic)
Increase in anaerobic microorganisms
Production of toxins

Answer 96

A

1. Change in (sequence of) amino acid(s)/primary structure;

Reject amino acids are formed.

Reject amino acids code.

2. Change in hydrogen & ionic & disulfide bonds;

3. Alters tertiary/30 structure;

Answer 97

A

An inversion will result in a change in the number of DNA bases.

Answer 98

A

1.9/1.93 × 1025

Answer 99

A

cancer cells die / break open releasing DNA;

Answer 100

A

(Increased) methylation (of tumour suppressor genes);

Accept abnormal methylation or hypermethylation

Mutation (in tumour suppressor genes);
Tumour suppressor genes are not transcribed/expressed

OR

Amino acid sequence/primary structure altered;

(Results in)rapid/uncontrollable cell division;

Answer 101

A

774 minutes / 12 hours 54mins

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Year 13 AQA Bio Flashcards

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