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BIOLOGY PAPER 1
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Microscopes
Normal light microscope can see cells and
nucleus
, electron microscope can see
subcellular
structures in more detail
Calculating cell size
1. Measure image
size
2. Divide by
magnification
Eukaryotic cells
Have a
nucleus
containing
DNA
Prokaryotic cells
Do not have a
nucleus
, DNA is in a ring called a
plasmid
Cell structures
Cell membrane
Cell wall
(
plant
cells and bacteria)
Cytoplasm
Mitochondria
Ribosomes
Chloroplasts
(
plant
cells)
Bacterial binary fission
1. Number
doubles
every
10
minutes
2. Practical:
Grow
culture on agar plate using
aseptic
technique
3. Calculate culture
size
from area or
initial
drop
Diploid cells
Have
23
pairs of
chromosomes
Haploid cells
Have
23 single
chromosomes
Mitosis
1.
Genetic
material duplicated
2.
Nucleus
breaks down
3.
Chromosomes
pulled to opposite sides
4. New
nuclei
form
Specialised cell types
Nerve
Muscle
Root hair
Xylem
Phloem
Stem cells
Unspecialised cells that can
differentiate
into various cell types
Diffusion
Movement of molecules/particles from high to
low
concentration, down concentration gradient,
passive
process
Osmosis
Diffusion
of
water
across a semi-permeable membrane
Practical: Osmosis
1.
Cut
potato cylinders
2.
Weigh
and place in
sugar
solutions
3.
Reweigh
after a day
4. Calculate percentage
change
in
mass
5. Plot against sugar
concentration
to find
no
change point
Active transport
Using
energy
to move substances
against
a concentration gradient
Digestive system processes
Acid
in stomach
Bile
and
enzymes
in small intestine
Enzymes
break down food into
small molecules
Enzymes
Biological
catalysts
that are specific to certain substrates, work on a
lock
and key principle
Practical: Enzyme activity
1. Mix amylase and starch at different temperatures or pH
2. Test for starch presence over time
3. Plot time to complete reaction against temperature or pH to find optimum
Food tests
Iodine
for starch
Benedict's
solution for sugars
Biuret's
reagent
for proteins
Ethanol
for lipids
Breathing vs respiration
Breathing provides
oxygen
for
respiration
to occur in cells
Gas exchange in lungs
1. Air enters
trachea
, bronchi,
bronchioles
, alveoli
2. Oxygen diffuses into
blood
,
carbon dioxide
diffuses out
Circulatory system
Double circulatory system,
deoxygenated
blood enters right side of heart,
oxygenated
blood leaves left side
Heart structure
Right
atrium, right
ventricle
, left atrium, left ventricle
Electrical
pulses from
pacemaker
cause heart to beat
Blood vessels
Arteries carry
oxygenated
blood away from heart, veins carry
deoxygenated
blood towards heart
Capillaries
allow fast diffusion
Coronary arteries supply heart muscle with
oxygen
,
blockage
can cause heart attack
Stents can be used to keep
blood vessels
open, statins reduce
cholesterol
Heart valve
problems can lead to
backflow
, artificial valves can replace faulty ones
Non-communicable diseases
Caused by internal factors, e.g.
cardiovascular
disease, autoimmune conditions,
cancer
Communicable diseases
Caused by external pathogens, e.g.
infectious diseases
Coronary artery
Delivers
blood
to the heart muscle to supply
oxygen
Heart attack
Occurs when coronary arteries are blocked by buildup of
fatty
deposits, causing
coronary heart disease
(CHD)
Stents
Little tubes inserted into
blood vessels
to keep them
open
and allow blood flow
Statins
Drugs that reduce
cholesterol
and
fatty
deposits
Faulty heart valves
Result in
backflow
, can be replaced with
artificial
ones
Blood
Carries plasma, red
blood cells
, white blood cells, and
platelets
White blood cells
Combat
infections
Platelets
Clump
together to clot wounds and stop
bleeding
Cardiovascular disease
(CVD)
An example of a
non-communicable disease
, caused by factors within the body
Communicable disease
Caused by a pathogen that enters the body, can be
viral
,
bacterial
, or fungal
Type
2
diabetes
Can be caused by
obesity
and too much
sugar
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