10626003
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Mind Map by Gail Thomas, updated more than 1 year ago
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Cellular Processes (91156)
- Cell Organelles
- Plant Cells
- Chloroplasts - oval shaped,
found in leaf cells (particularly
palisade cells), and are the site
of photosynthesis
- Chloroplast
Structures
- Double Membrane - Outer is simple and
permeable allows for great rate of transport of
materials needed for photosynthesis -Inner is
semi-permeable, only allowing for the entry and
exit of reactants/products of photosynthesis
- Stroma - Clear fluid substance (so that sunlight can get through)
- Where light independent reactions take place (CO2 and H2 join)
- Lamellae - tubes connecting
Grana to each other
- Thylakoids + Grana - Thylakoids are
individual flattened membranes arranged
into disc shapes, light-dependent reactions
occur here - Grana are stacks of thylakoids
-Embedded in these membranes is
chlorophyll, the light-absorbing pignment
- Double Membrane - Outer is simple and
permeable allows for great rate of transport of
materials needed for photosynthesis -Inner is
semi-permeable, only allowing for the entry and
exit of reactants/products of photosynthesis
- Chloroplasts are more abundant
in regions of the plant that are
exposed to sunlight, such as
those close to the top of the leaf
(but beneath the epidermal layer)
- Chloroplast
Structures
- Cell Wall - Made of
cellulose bundled
together, provide strength
and structure for the cell
- Chloroplasts - oval shaped,
found in leaf cells (particularly
palisade cells), and are the site
of photosynthesis
- Animal Cells
- Centrioles - involved in cell
division,, composed of
microtubules which extend
to form spindles moving
chromosomes apart
- Cilia and Flagella - cellular
projections, associated
with movement in
unicellular organisms and
small animals
- Centrioles - involved in cell
division,, composed of
microtubules which extend
to form spindles moving
chromosomes apart
- Both Cells
- Mitochondria - oval shaped, found
in most cells (particularly those
with high-energy demands), and
are the site of aerobic respiration
- Mitochondria
Structures
- Matrix - the space
between cristae which
contains many
enzymes
- Cristae - inner
membrane is folded into
these to greatly increase
the surface area for
where Hydrogen Transfer
chain reactions will occur
- Double Membrane
- Matrix - the space
between cristae which
contains many
enzymes
- Mitochondria are
more abundant in
animal cells,
particularly those
with high energy
demands, eg.
Muscle cells
- Mitochondria
Structures
- Vacuoles -
membrane-bound
sacs filled with fluid
- Lysosome - vacuole containing
digestive enzymes, their job is to
break down old organelles, digest
bacteria engulfed by
phagocytes/white-blood cells
- Lysosome - vacuole containing
digestive enzymes, their job is to
break down old organelles, digest
bacteria engulfed by
phagocytes/white-blood cells
- Golgi Body - After proteins have
been synthesized in the ER, they
are sent here to be modified
- Endoplasmic Reticulum (ER) - A network of
membranes spanning across the cell that has multiple
functions including being a transport system, carrying
materials from one side of the cell to the other
- Smooth - no ribosomes attached
and is instead responsible for the
production of lipids and steroids
- Rough ER - ribosomes are attached,
involved in protein production therefore, are
common in cells that make/secrete proteins
- Smooth - no ribosomes attached
and is instead responsible for the
production of lipids and steroids
- Nucleus - contains DNA in the
form of chromatin, which
organises all cell processes
- Nucleolus - inside the
nucleus, produces the RNA
components of ribosomes
- Nucleolus - inside the
nucleus, produces the RNA
components of ribosomes
- Ribosomes - site of
protein synthesis/
production
- Plasma/Cell
Membrane - A
phospholipid layer
with proteins
embedded, and is
semi-permeable
(only allows some
substances to
enter/exit)
- Mitochondria - oval shaped, found
in most cells (particularly those
with high-energy demands), and
are the site of aerobic respiration
- Plant Cells
- Cell Processes
- Cell Division
- DNA Replication
- Happens
before a cell
divides
- 1. DNA unwinds
- 2. Nucleotides
match up to
exposed bases
- 3. Enzymes
check and
correct errors
- After replication 2 DNA molecules
form a chromosomes, each
identical half is called a chromatid,
and are joined by a centromere
- Happens
before a cell
divides
- Mitosis - Cell division
that produces two
identical cells for growth,
repair and maintenance.
- 1. DNA replicates,
nuclear membrane
breaks down and
spindles form
- 2. Chromosomes
line up at equator
(cell centre)
- .3 .Fibres contract,
pulling chromatids
to opposite ends of
the cell
- 4. Nuclear
membranes
form. Cell
Divides
- 1. DNA replicates,
nuclear membrane
breaks down and
spindles form
- DNA Structure -
- DNA Replication
- Respiration
- Anaerobic Respiration
- Occurs in the cell
cytoplasm, not in
Mitochondria
- Oxygen is not involved
in this reaction
- Pyruvates formed in
Glycolysis are broken down
into lactic acid - this build
up creates muscle fatigue
- Only Glycolysis
takes place
- Substrates =
Water + Glucose
- Products =
Lactic Acid +
2 ATP
- Occurs in the cell
cytoplasm, not in
Mitochondria
- Aerobic Respiration
- Substrates =
Oxygen + Water
+ Glucose
- Products =
Carbon Dioxide +
Water + ATP +
(heat energy)
- Symbol Equation = C6H12O6 + 6O2 -->
6H20 + 6CO2 + 38ATP + (heat energy)
- Three main chemical
ENZYME-CONTROLLED
pathways
- 1. Glycolysis - Occurs in Cytoplasm
of cell (not Mitochondria), Glucose
broken down into 2 pyruvate
molecules, 2 ATP molecules produced
- 2. Krebs Cycle - occurs in
matrix of Mitochondria,
C02 (waste) and H atoms
(used in next stage) are
produced
- 3. Electron Transfer Chain - occurs in
Cristae of Mitochondria, H atoms from
Krebs cycle are ionised and their
electrons are 'bounced' through electron
transfer chain, the energy released is
used to form ATP from ADP, electrons
are then returned to H atoms to combine
with O2 and form H20 (product)
- To become ATP (Adenosine
Triphosphate), ADP
(Adenosine Diphosphate)
gains a phosphate
- To become ATP (Adenosine
Triphosphate), ADP
(Adenosine Diphosphate)
gains a phosphate
- 1. Glycolysis - Occurs in Cytoplasm
of cell (not Mitochondria), Glucose
broken down into 2 pyruvate
molecules, 2 ATP molecules produced
- Substrates =
Oxygen + Water
+ Glucose
- How organisms get
energy to fuel life
processes
- Anaerobic Respiration
- Photosynthesis
- Occurs only in Plants
- Products =
Glucose + Water
+ Oxygen
- Substrates =
Carbon Dioxide
+ Water
- Symbol Equation: 12H2O + 6CO2
-- (Sunlight +Chlorophyll) --> 6H2O
+ C6H12O6 + 6O2 OR 6H2O +
6CO2 -- (Sunlight +Chlorophyll) -->
C6H12O6 + 6O2
- Two main chemical
ENZYME-CONTROLLED
pathways
- 1. Light-Dependent Reacton - takes places
in grana of chloroplasts, sunlight is
absorbed in thylakoid membrane, water is
splt into Hydrogen H (used in next stage)
and Oxygen 02 (Waste)
- 2. Light-Independent (Calvin Cycle)
- Occur in stroma of chloroplast,
CO2 and H enter the cycle and
after extensive arrangement,
Glucose (C6H12O6) is formed as
the final product
- 1. Light-Dependent Reacton - takes places
in grana of chloroplasts, sunlight is
absorbed in thylakoid membrane, water is
splt into Hydrogen H (used in next stage)
and Oxygen 02 (Waste)
- Rate of
Photosynthesis
Influences
- Temperature
- Light
Intensity +
Wavelength
- Concentration
of CO2
- Temperature
- Occurs only in Plants
- Cell Division
- Enzyme Activity
- Factors that
infleunce
Enzyme Activity
- Temperature
- pH
- Substrate Concentration
- Temperature
- Factors that
infleunce
Enzyme Activity
- Transport of Materials
- Active Transport
- Cytosis
- Endocytosis
- Pinocytosis
- Phagocytosis
- Pinocytosis
- Exocytosis
- Endocytosis
- Ion Pump
- The movement of sybstances from an area of
low concentration to an areqa of high
concentration. It requires energy.
- Cytosis
- Passive
Transport
- Diffusion
- Facillitated Diffusion
- Osmosis
- Facillitated Diffusion
- Diffusion
- Active Transport
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