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BIOMOLECULES
Carbohydrates- Explain how structure of starch makes it a good storage molecule
...
[6]
Enzymes- Describe how enzymes take part in chemical reactions
Explain why an increase in substrate concentration at low substrate concentrations
increases the initial rate of rxn but an increase at high substrate concentrations
does not do so
...
[6]
DNA AND GENOMICS
Definition: gain in function mutation
Definition: Template DNA
Describe how the structures of RNA are adapted for translation
...

Describe how T4 bacteriophage enters a bacterial cell
...
[7]
Rolling circle replication
Binary fission
Bacterial conjugation
Bacterial transformation
How would transduction lead to transfer of genes from one strain of bacteria to
another?
Describe how the prokaryote, E
...

Describe the main structural features of the lac operon
...

Suggest why operons are necessary in bacteria
...

Describe the process of chemiosmosis in the chloroplast
Describe the processes that generate and maintain the proton gradient
...

Explain the shape of the action spectrum
...

DNA/GENOMICS
Describe how structure of tRNA is adapted to its function
...

Arrangement of genetic sequences within an operon
MENDELIAN GENETICS
Standard answer for chi-square test
Explain the term epistasis
...
[8]
PRO/EUK GENOME
How does an enhancer sequence work?
Controlling strength of promoter in prokaryotes to regulate transcription
Role of telomeres
End replication problem
Outline the significance of post-translational modifications of euk proteins
...
[8]
CELL SIGNALLING/HOMEOSTASIS
With reference to the stages of cell signalling, describe the response of liver cells
to insulin
...
[6]

Advantages of mtDNA to construct phylogenetic tree
Suggest why cytochrome b gene is used to measure changes in DNA seqs in
closely related species
...

Compare sympatric and allopatric speciation
...

Explain the various species concepts and their limitations
...
[5]
Comparison - Contrast a fibrous and globular protein
...

COMPARISON TABLES: MIT/MEI/DNA/GENOMICS
State four ways in which the behaviour of chromosomes in meiosis differs from
their behaviour in mitosis
...
[3]
COMPARISON TABLES: PHOTO/RESPI
Describe how the Calvin cycle differs from the Krebs cycle
...


1
...
Compact structure​
allows many starch molecules to be stored within a small volume
3
...
Hundreds of glucose residues ⇒ many ​
hydrogen atoms​
storing chemical energy
5
...
Anomeric carbon involved in glycosidic bond formation makes it relatively stable and
unreactive

Explain why cellulose / starch is insoluble in water
1
...

and
2
...
Hence there are ​
insufficient free hydroxyl groups​ enable cellulose to be soluble in
to
water (or effect solubilisation)

Proteins- Describe an ​
alpha helix

1
...
Is maintained by hydrogen bonds between the ​ and NH​
CO
groups of ​
every 4th​
​amino
acid residue on the polypeptide backbone
3
...
6 amino acid residues in every turn of the alpha-helix

Proteins- Describe structure of ​
beta-pleated sheet

Hydrogen bonds form between the C=O group of a ​
peptide​ one strand and the N-H group of
in
another peptide in the ​
adjacent​
strand
...


Proteins- Describe the structure of a protein
Idea: Mention the ​
structure​ holds the protein together, then mention the ​
that
​
bonds​
that
​
maintain the structure and what they are between
...
Primary structure - peptide bonds between amino acid residues
2
...
a
...
Tertiary structure - hydrogen bonds, ionic bonds, disulfide bonds and hydrophobic
interactions between R-groups of amino acid residues
4
...
Best example = haemoglobin

Proteins - Outline how a structure of a​
named​
globular protein is related to its specific
function
...
makes it ​
soluble in blood​
, capable of carrying O2 from lungs to tissues and vice
versa
5
...
each haem group consists of a porphyrin ring and an iron ion
a
...
4 subunits held together by intermolecular bonds allows movement that influences
affinity for oxygen → enabling ​
cooperative binding of oxygen
a
...

2
...

4
...
hesitant loading​ first oxygen molecule results in rapid loading of the other
of
three
...
Specific active site where substrate complementary in shape and charge binds by the
lock and key model
2
...
Lowers activation energy by:
a
...
Straining of bonds to be broken increases chance of breakage
c
...

1
...
As the substrate concentration increases, the rate of reaction increases as more active
sites are occupied by substrates
3
...
Thus, enzyme concentration becomes limiting while substrate concentration is
no longer limiting
...
(inhibitor) acts as a ​
non-competitive inhibitor​
which binds to ​site other than the
a
active site
2
...
Prevents it from being ​
complementary in shape and charge​ the substrate
to
4
...


Explain how temperature affects the rate of an ez-cat rxn
1
...
Increases ​
frequency​ successful collisions between the ez and sub forming the
of
ez-sub complex
3
...
Reaction rate increases with temperature up to the optimum temperature
5
...
State formula
...
Each enzyme has an optimal temperature that allows the greatest number of
molecular collisions and thus rate of reaction
7
...

of

Describe the mode of action of an enzyme
1
...
Active site is complementary to (​
substrate here​cleaving the (​ name here​
),
bond
) bond,
in a (​
reaction type here​
) reaction
...
The enzyme works by ​
induced fit​ which the binding of the substrate to the contact
in
residues on the active site cause conformational changes for a more ​
precise fit
4
...
This is done by distorting the bond between the reactants, causing strain on the bond /
Presence of acidic and basic R groups on the catalytic residues facilitate catalysis of
the bond
...
[6]
2014/NJC/P2/Q9a
1
...
Unsaturated hydrocarbon tails have kinks that keep the phospholipid molecules in the
membrane from packing closely at lower temperatures
3
...
Cholesterol restricts phospholipid movement and stabilises the lipid bilayer through
hydrophobic interactions
5
...
Template refers to ​ ​ the DNA strands of a DNA molecule
one of

2
...
Resultant RNA molecule has a ​
sequence complementary​ that of the DNA
to
4
...
[6]
of

mRNA
1
...
One codon codes for an amino acid
...
mRNA has ​
ribosome attachment site
4
...
Contains start codon (AUG) and STOP (UGA, UAA, UAG) codon
6
...
Mature mRNA does not contain introns and a 5’ methyl guanosine cap and 3’ poly-A
tail to ensure mRNA stability
tRNA
1
...
At least 20 different tRNAs, one for each amino acid
3
...
Has shape complementary to amino-acyl tRNA synthetase for activation of amino acid
5
...
Structural component of ​
ribosome ​ to complementary base pairing
due
2
...
)
3
...

N2008/P2/Q3a, N2011/P2/Q2c
1
...
Virus enters host cell by ​
endocytosis​

...

3
...
The
drop
stimulates fusion of viral
envelope with vesicle membrane, releasing the nucleocapsid into the cytosol

Describe how T4 bacteriophage enters a bacterial cell
...
When T4 bacteriophage ​
attaches​ anchors to the bacterial ​ cell wall​ will
and
host
, it
release ​
lysozyme​
, which digests the bacterial cell wall
...
Molecules released from the digestion diffuse back to the bacteriophage and initiate a
change in the base plate conformation
3
...

4
...


Explain why viruses may be regarded as non-living organisms
...
require host cells t make products such as their coat proteins
6
...
do not respond to stimuli outside the host cell
1
...

3
...


Rolling circle replication
(RI/2013/P2/Q2c(ii))
1
...
DNA pol adds ​
nucleotides​ the free 3’ OH and to synthesise a ​
to
complementary​
DNA
strand
3
...
5’ end of the nicked strand is displaced as synthesis/strand elongation proceeds
5
...

Comments: don’t use terms like ‘inner’ and ‘outer’ strand since DNA is a double helix
...


Bacterial conjugation
1
...
One of the 2 strands of the plasmid DNA in F+ cell is nicked and ​
transferred from the
F+ cell to the F- cell​
through a mating bridge via rolling circle mechanism as the other
DNA strand is used as a template for replication
...
Single stranded F plasmid DNA ​
circularises​ F-​ and is used as a template to
in ​
cell

synthesise a ​
complementary strand​ a double-stranded F plasmid DNA, resulting in
for
+​
a ​ cell
F​

Binary fission

1
...
Replication takes place outward from the origin in
both direction with ​replication forks​
2

...

2
...
The cell elongates to prepare for division
4
...
When the daughter DNA molecules are separated, the bacterial cell will have reached
twice its initial size
...


Bacterial conjugation
-- ​
1
...
One of the 2 strands of the plasmid DNA in F+ cell is nicked and ​
transferred from the
F+ cell to the F- cell​
through a mating bridge via rolling circle mechanism as the other
DNA strand is used as a template for replication
...
Single stranded F plasmid DNA ​
circularises​ F-​ and is used as a template to
in ​
cell
synthesise a ​
complementary strand​ a double-stranded F plasmid DNA, resulting in
for
a ​​
F+ cell
​

Bacterial transformation
1
...
The foreign DNA is incorporated into the bacterial chromosome via ​
crossing
over/homologous recombination​ the ​homologous regions​
at
2
found on the bacterial
chromosome and the foreign DNA
3
...


How would transduction lead to transfer of genes from one strain of bacteria to
another?
(or any reference to variation/introduction of a new gene/etc
...
Bacteriophage infects strain of bacteria containing , injecting its viral
DNA
...
When phage replicates within the bacteria, bacterial DNA is ​
hydrolysed to small
fragments​ prophage was ​
OR
improperly excised​
during ​
spontaneous induction​
, picking
up adjacent bacterial
3
...
Virus then infected bacterial cell ​ containing the gene
not
5
...

, is
concentrations of lactose
...
E
...
Beta galactosidase​ ​
and permease​ constitutively produced in the cell
are
3
...
Lactose is converted by beta galactosidase into ​
allolactose​
, which ​
binds to​
and
inactivates repressor proteins
5
...
Promoter is unblocked and
RNA pol can bind to promoter and transcribe ​
structural genes
6
...
Lactose is also converted by beta-galactosidase to glucose + galactose

Describe the main structural features of the lac operon
...

1
...
Lac Z​
which codes for ​
beta-galactosidase
3
...
Lac A​
which codes for lactose ​
transacetylase
5
...
There is also a ​
regulator gene​
upstream, Lac I, which codes for the repressor ​
protein
7
...
Situated within the promoter is a ​
Catabolic activator protein binding site
9
...


Explain what is meant by a ​
repressible​
operon
...
one where transcription is ​
usually turned on
2
...
This ​
changes the shape​ the inactive repressor protein to the ​
of
active conformation
4
...
blocking the binding of RNA polymerase​ the promoter
to
6
...


Suggest why operons are necessary in bacteria
...
Clustering genes of related functions together​
under the control of a ​
common promoter
allows ​
regulation of gene expression​

...
Allows bacteria to only ​
produce ​
enzymes​
when required​ allow for quick responses
and
to changes in the external environment
3
...
Confers a ​
selective advantage​ bacteria
to

How would a point mutation in lac Z ​ leads to a truncated beta galactosidase protein)
(that
affect expression of lac Y and lac A?
1
...

2
...


PHOTO/RESPI
Role of NAD in aerobic respiration
(2010/RI/P2/Q8b)
1
...
Organic molecules are oxidised during glycolysis, link reaction and Krebs cycle
...

​
to
3
...
As electrons pass down the chain, the release of energy in a series of redox reactions
is coupled to the phosphorylation of ADP to form ADP
5
...
1 NADH yields ​ATP
3
7
...


Describe the involvement of the chloroplast envelope in photosynthesis
...
Allows for compartmentalisation of the cell
2
...
NAD regenerated when electrons from NADH transferred to pyruvate/ethanal
2
...
NB: role of NAD in ​
glycolysis​ ​
= coenzyme​
which carries both protons and electrons

3 similarities in ATP production in respiration and photosynthesis

1
...
generation of ​
proton gradient​
across membrane
3
...
mobile electron carriers pass electrons to electron carriers of electron transport chain
such as NAD+​
​
and FAD in respiration vs NADP+​ photosynthesis pass electrons
​
in

Describe how anaerobic respiration in mammalian cells differs from anaerobic
respiration in yeast cells
...
In mammals: ​
lactate​
produced instead of ethanol
2
...
Involves a ​
single step​
catalysed by lactate dehydrogenase

Explain the small yield of ATP under anaerobic conditions in yeast and mammals
(N2008/P2/Q8b, N2012/P2/Q???)
1
...
oxidative phosphorylation​
eventually stops as no further electrons are passed down
the chain, hence ​ ATP will be produced via chemiosmosis
no
3
...
No ATP produced via ​
Krebs cycle​ ​
in substrate level phosphorylation
5
...
produced 2 net ATP per glucose molecule via substrate level phosphorylation
7
...
In mammal cytoplasm, pyruvate is reduced to NADH via lactate fermentation

remember! EACH NAD PRODUCES 2
...

1
...

and
2
...
The energy released is coupled to the pumping of H+ into the intermembrane space to
generate a ​
proton gradient
4
...

5
...

so

Describe the process of chemiosmosis in the chloroplast
(2010/RI/P2/Q7b)
1
...
As electrons travel down a series of ​
progressively more electronegative electron
carriers​ ​ energy released​ used
, the free
is
3
...
which contributes toward a ​ H+​ oncentration in the thylakoid space relative to the
high ​
c
​
stroma
5
...
ADP phosphorylated to ATP​ the process
in

Explain the shape of the action spectrum
...
Peaks​ action spectrum correspond to absorption peaks (of photosynthetic
of
pigments)
2
...
Region between 500-600nm is ​ an exact match​
not
between absorption and action
spectra
4
...


Describe the processes that generate and maintain the proton gradient
...
Splitting of H​ ​ H​ H+​
O
O, ​
and electrons in the thylakoid space contributes to the
2​ into
2​
accumulation of H+​ the thylakoid space
...
NADP+​ reduced to NADPH by ​
​
is
NADP+​
​
reductase​akes up H+​
;​
t
​
ions from stroma

MEIOSIS/MITOSIS
Description of chromatids during anaphase
1
...
sister chromatids separate​
, becoming daughter chromosomes which are ​
pulled apart
by shortening spindle fibres​ opposite poles
to

Role of centromeres in cell division
Nature of centromeres:

1
...
facilitate sister chromatid adhesion at a particular region of the chromosome

3
...
allows separation of sister chromatids to ​
opposite poles ​ by centromeres
led
5
...
Nature of centrioles:​ of centrioles at each pole; their position determines the polarity
pair
of the cells
2
...
which leads to separation of chromosomes after centromeres divide

Structure of centrioles
1
...
contains ​ triplets of microtubules​
nine
arranged in a ring, found in the ​
centrosome
3
...
Restores diploid​
number/prevents ​
doubling​ chromosome number
of
2
...
Pair of chromosomes, ​ of paternal and one of maternal origin
one
2
...
same genes at corresponding loci
Comments: most students lacked details/ Cambridge always requires mention of paternal and maternal origin,
hence student will not be awarded mark for mentioning that each comes from one parent
...

1
...
thus daughter cells are genetically identical to parents
3
...
Each strand of parental DNA acts as template for the exact replication to form the new
daughter strand through ​
complementary base pairing
5
...
During metaphase, sister chromatids are attached to microtubules from either pole
7
...
which ensures sister chromatids are separated to opposite pole during anaphase
9
...
In asexual reproduction, mitosis produces genetically identical daughter cells
11
...

(2012/JJC/P2/Q8a)
Structure

Function

ssRNA with 3 loops and a stem
held by hydrogen bonds

shape is complementary to active site of amino
acyl-tRNA synthetase for amino acid activation

CCA stem at 3’ end

Attaches covalently to amino acids coded for by the
anticodon of the tRNA

Ribosome recognition site

makes specific base pairing with rRNA of ribosome

Anticodon

Complementary base pairs with specific codon on
mRNA/act as intermediate

Explain how the correct amino acid is joined to a tRNA
...
Aminoacyl-tRNA synthetase​ a ​
has specific active site​ recognises tRNA with a
that
specific anticodon
2
...
Double specificity ensures there is a correct match between amino acid and tRNA with
a specific anticodon

Arrangement of genetic sequences within an operon
1
...
Two or more structural genes​ encode different proteins are found between these
that
two sequences
3
...
At chi-squared value of [value], p is greater than [value]
...
05/p is
p
less than 0
...
We ​ not reject​ null hypothesis that there is no ​
do
the
significant difference​
between
observed and expected ratios​ any difference is due to ​
and
random chance​

...
Only state what the difference in observed phenotype is if absolutely sure!

Explain the term epistasis
...
form of gene interaction where a gene at one locus alters the phenotypic expression of
a gene at a second locus
2
...
The homozygous
recessive alleles result in a lack of production of this enzyme/ Gene B codes for
enzyme B, which converts the colourless intermediate into the purple pigment
...

3
...
When either enzyme is missing, purple pigment
cannot be made and the flower remains white
...
[8]
Definition of genotype and phenotype
1
...
The ​
phenotype​ an organism is the physical characteristic / trait that is expressed
* of
or observed and results from a specific genotype;
3
...
Ref
...
Ref
...
Different alleles will result in the production of different polypeptide chain(s) /
protein(s);
7
...
The alleles present for each particular gene may be dominant* or recessive*;
9
...
Hence only the dominant allele will be expressed in the phenotypes of homozygous
dominant and heterozygous organisms;
11
...


Controlling strength of promoter in prokaryotes to regulate transcription
Strength of promoter is determined by how similar the -10 and -35 sequences are to the
consensus sequences​
(which are:
-10: 5' - TATAAT - 3'
-35: 5' - TTGACA - 3')
Stronger promoters have ​
higher frequency​ transcription
...
Ensure ​
genes are not lost/eroded​ to​ replication problem​
due end
, preventing loss of
vital genetic information
2
...

3
...
Occurs during replication of linear (euk) chromosomes
2
...
An RNA primer is synthesised to provide free 3’ OH end for addition of free nucleotides
4
...
Hence chromosomes shorten after every round of replication
...
Since telomeres are non-coding, shortening of chromosomal ends leads to shortening
of telomeres without deleterious effects (i
...
doesn’t result in loss of vital genetic
information)

Outline the significance of post-translational modifications of euk proteins
...
Cleavage/covalent modification​ example (glycosylation/attachment of prosthetic
+
groups)
2
...
Regulation​ controls cellular activity + example (phosphorylation may
→
activate/inactivate (ORA) proteins)
4
...
g
...
Conserve resources → unused/unneeded proteins can be hydrolysed to amino acids
to be used to synthesise new proteins

6
...
[8]
(2013/RI/P2/Q9a)
● Both involve regulation of ​RNA half-life​ longer half-life allows for translation of
m
→
more proteins from mRNA
● Both require ​
initiation factors​ the proper positioning of the small ribosomal subunit
for
together with initiator tRNA on the mRNA and recruitment of the large ribosomal
subunit/assembly of translation initiation complex
...
[6]
2014/ACJC/P2/Q9c
1
...
Ligand-binding causes RTK to undergo ​
changes in conformation​ its intracellular,
in
cytoplasmic domain;

3
...
Phosphorylated tyrosine residues serve as ​
docking sites​ other ​ proteins​
for
relay
;
5
...
Relay proteins may be ​
kinases​
which can go on to ​
phosphorylate​
other proteins when
activated;
7
...
activation of ​
glycogen synthase​
which catalyses glycogen synthesis from
glucose
...
e
...
translocation of glucose transporters​
from the membrane of cytoplasmic
vesicles to the cell membrane, increasing glucose intake into cells
c
...
increased lipid & protein synthesis

Comparative effects of glucagon and insulin
Basis of
comparison

Insulin (aim: decrease blood
glucose level)
● Increases glucose intake
through translocation of
glucose transporters to the
cell surface membrane
● increases glycolysis
● increases glycogenesis
mainly in liver and muscles
● decreases gluconeogenesis

Glucagon
● Increase glycogenolysis
● increase gluconeogenesis
● increase breakdown of lipids
Target cells: liver cells

Disadvantages of a signalling cascade
● Error along any segment of the cascade would result in a non-specific response
● Prone to error

EVOLUTION
Suggest how (_____) supports Darwin’s theory of natural selection
1
...
suggests ​
adaptive radiation
b
...
MOLECULAR EVIDENCE:
a
...

is
3
...
These favourable traits are passed on to the
in
offspring
...
Speciation​
occurs when there is an ​
accumulation of mutations and changes in allele
frequencies​ time between the sub-populations due to ​
over
disruption of gene flow​

...
Natural populations have great reproductive potential
2
...
Due to environmental factors, ​
competition ​ resources, predators, other selection
for
pressures, that impose a limit on their number and organisms ​
struggle to survive
4
...
Variants with a ​
selective advantage/which are best adapted to their environment ​
are
more likely to survive and reproduce
6
...
Over many generations, evolutionary changes by natural selection and may form new
species if ​
reproductive isolation​
occurs which is necessary for ​
speciation
8
...
[6]
1
...

Mitochondrial DNA has a ​
faster mutation rate​
compared to nuclear DNA, hence it is useful for
comparing individuals within a species/closely related species, as it requires discernible
differences between DNA of organisms being compared
...

1
...
was found in their common ancestor; forms the basis of comparison
3
...
It is found in the ​itochondria​ hence ​ not undergo recombination​ ​
m
and
do
and any
mutation​
accumulates at a regular rate in the maternal line → can be used for
molecular clock

Explain how species are formed with reference to reproductive isolation
...
Species defined as a group of organisms capable of ​
interbreeding​
, producing viable
and fertile offspring
2
...
For speciation to occur, ​
reproductive barriers/isolation​
must exist
4
...
Pre-zygotic mech ​
prevents mating or fertilisation​
, which involves
habitat/geographical/temporal/behavioural/mechanical/gamete isolation
b
...
Repro isolation mechs will prevent production of viable, fertile offspring/prevent
interbreeding/prevent formation of hybrids
6
...
Isolated population subjected to different selection pressures
8
...
(Link allopatric and sympatric speciation to repro isolation)

Compare sympatric and allopatric speciation
...
SIMILARITY: Both require disruption of gene flow
...
DIFFERENCE: ​
Allopatric speciation​ formation of species from populations due to
is
geographic isolation​
between 2 populations whereas ​
sympatric speciation​ the
is
formation of species from populations in the ​
same geographic location​ ​
/by behaviour
or physiological isolation

Explain why the scientific name is better than the common names
...
Unambiguous​ one unique name for each species
with
2
...
while common names do not reveal their ​
position in the (plant)
kingdom​
/attempt to categorise them
...
[6]
and
(2012/NJC/P2/Q9b)
Approach is generally to ​
define the concept​ give one limitation
...
Ecological species concept: views a species in terms of its ecological niche
a
...
Biological species concept: define species as a population or group of organisms
whose members have the potential to interbreed in nature and produce viable fertile
offspring
a
...
Hybridisation is possible between species previously thought to be distinct
3
...
Subjective
b
...

Describe how cellulose differs from starch
...

FIbrous (eg Collagen)

Globular (eg
Phosphofructokinase)

Variety

Less variety of a
...
used to
construct the protein
...
a used to
construct the protein

Solubility

Insoluble

Soluble

Errors

Length of polypeptide may vary
slightly between two samples of
the same protein, yet protein is
still function

Length of pptd is always
identical

Function

Collagen is a structural protein

PFK and other ez are involved in
metabolic and enzymatic roles

Shape

Made of up of straight long pptd
chains

Spherical in shape

Comparison - Compare cellulose and insulin (a carbohydrate and a protein)
Cellulose

Insulin

Monomers

Cellulose is comprised of
beta-glucose monomers

Insulin is comprised of amino
acid residues

Bonds –
intramolecular

Cellulose is held together by
beta(1-4) glycosidic bonds

Insulin is held together by
peptide bonds

Bonds –
intermolecular

Cellulose has intermolecular
hydrogen bonds between OH
groups of parallel cellulose
molecules

3D conformation of the protein
is maintained by hydrogen,
ionic, hydrophobic interactions
and disulphide linkages
...

Basis of
comparison

Glucagon

Glycogen

Type of
macromolecule

globular

extensively branched polysaccharide
made of helical chains

Type of
monomer

amino acid residues with
different R groups

alpha glucose only

Type of bonds
between
monomer

peptide bonds

alpha 1,4-glycosidic linkages with
branched alpha 1,6-glycosidic
linkages

Number of
monomers per
molecule

fixed number of amino acids per
molecule

variable number of glucose per
molecule

Solubility in
water

soluble (globular)

insoluble (large molecular weight)

Synthesis

in alpha cells in islets of
Langerhans in pancreas

in liver and muscle cells when blood
glucose is high

Function

hormone that regulates blood
glucose

energy store in muscle and liver

Note that Cambridge will mark as 0 if you don’t write ​ sentences​
full
!

COMPARISON TABLES: MIT/MEI/DNA/GENOMICS
State four ways in which the behaviour of chromosomes in meiosis differs from their
behaviour in mitosis
...
This is purely for
organisational purposes)
Meiosis

Mitosis

Homologous chromosomes pair up to form
bivalents

Chromosomes align singly

Crossing over between non-sister chromatids
of homologous chromosomes occurs

Crossing over does not occur

Homologous chromosomes separate in
anaphase 1

Sister chromatids separate in anaphase of
mitosis

List three ways in which transcription is different from DNA replication
...
This is purely for
organisational purposes)
Basis of
comparison

DNA replication

Transcription

Template

Both DNA strands​
serve as a
template

Only one strand​ as a template
acts

Product

2 double-stranded DNA​
molecules
are synthesised

1 single stranded RNA ​olecule is
m
synthesised

Enzyme
involved

DNA polymerase

DNA-dependent ​ polymerase
RNA

Nucleotides
used

Deoxyribonucleotides and
ribonucleotides​ used
are

Ribonucleotides​ used
are

COMPARISON TABLES: PHOTO/RESPI
Describe how the Calvin cycle differs from the Krebs cycle
...


Oxygen is the final electron
acceptor

How the proton
gradient is
established

Protons are pumped inwards, from
the stroma, across the thylakoid
membrane into the thylakoid space

Protons are pumped outwards,
from the matrix into the
intermembrane space across the
inner membrane

---

Title: H2 Biology Paper 2 common questions and answers
Description: This document contains a list of common questions and answers from H2 Biology A Level (Singapore) paper 2 (core curriculum). Includes a contents page which links to the relevant section. Covers: biomolecules/cell membranes, DNA and genomics, bacteria/viruses, photosynthesis/respiration, meiosis/mitosis, Mendelian genetics, cell signalling/homeostasis and evolution.

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