Topic 1: Cell biology Many mitochondria active transport of minerals
Eukaryotes & Prokaryotes: Vacuole with cell sap maintains a concentration
Eukaryotes gradient for faster diffusion
o Plant Cells + Animal Cells + Fungi o Xylem
o Divide by mitosis Long tubes transport water from roots to leaves
o Animal: Very thick cell wall stabilise walls
Nucleus - Contains the genetic information for the cell + No internal structures (no chloroplasts, nucleus, etc.)
Controls the activities of the cell. easier + more space for water to flow
Cytoplasm - Liquid gel containing organelle where most o Phloem
chemical reactions happen Vessel cell contains sieve plates allows sugar to
Cell Membrane - Controls what substances go in and enter plant cells
out of the cell No nucleus easier for sugars to flow
Mitochondria - Releases energy from respiration Companion cells with many mitochondria provides
Ribosomes - Protein synthesis energy to phloem vessel cell to transport substances
Cell Wall - Keeps the structure of the cell
o Plant: Cell Differentiation:
Cell membrane As an organism develops, cells differentiate to form different
Nucleus types of cells.
Cytoplasm Most types of animal cell differentiate at an early stage.
Mitochondria Many types of plant cells retain the ability to differentiate
Ribosomes throughout life.
Cell Wall - Keeps the structure of the cell rigid In mature animals cell division is mainly restricted to
containing cellulose. repair and replacement.
Chloroplast - Needed for photosynthesis. Contains As a cell differentiates it acquires different sub-cellular
chlorophyll structures to enable it to carry out a certain function –
Permanent Vacuole - Filled with cell sap to keep cell specialised cell
rigid
Prokaryotes Microscopy:
o Bacteria Electron Microscope:
o Divide by binary fission 1. Electron Beam
Cell membrane 2. Higher magnification
Plasmids – rings of DNA 3. Higher resolution
Loose Genetic material Light Microscope:
(Flagella) – to allow it to swim 1. Light Beam
(Slime Capsule) 2. Lower magnification
Cytoplasm 3. Lower resolution
Ribosomes 4. can be used to
Comparisons Can be used to study cells in much finer detail has enabled
o Prokaryotic cells are much smaller in comparison biologists to see and understand many more sub-cellular
o Prokaryotic cells do not have their genetic material structures
enclosed in a nucleus – single DNA (+plasmids) 1mm = 1000micrometers
o Plant and algal cells have a cell wall (made of cellulose) 1 micrometre = 1000nanonmeters
which strengthens the cell Magnification
1. By how much an object is enlarged underneath a
Required Practical Activity 1: How to use a microscope microscope
2. Controlled by power of lenses used
Cell Specialisation: Resolution
Animal: 1. The minimum distance between two objects at which a
o Sperm microscope can distinguish them as separate entities
Pointy head penetrate ovum 2. Controlled by the wavelength of illumination used
Flagellum swim to ovum ¿ Image
Many mitochondria energy to swim fast Magnication=
Actual ¿ ¿ ¿
Small easy to penetrate larger ovum
o Muscle Culturing microorganisms:
Many mitochondria release energy for muscle Bacteria multiply by binary fission (Simple cell division)
contractions Once every 20 minutes if they have enough nutrients +
Layers of protein filament side over each other to suitable temperature + moisture + correct pH
cause contraction Factors affecting the speed of bacterial growth:
o Nerve 1. Temperature - most bacteria grow fastest in warm
Long axon reach different parts of the body + environments
nervous system 2. Nutrient availability - bacteria need a good supply of
Dendrites (braches) communicate with other nerve nutrients in order to grow rapidly
cells 3. Moisture - most bacteria grow fastest in moist conditions
Myelin sheath insulate nerve impulses 4. Oxygen - different types of bacteria either need the
Plant: presence or absence of oxygen for growth
o Root Hair Can be grown in a nutrient broth solution/as colonies on an
Large surface area absorb more minerals + Water agar gel plate
Thin cell wall short diffusion path for minerals to Uncontaminated cultures of microorganisms required for
enter cell investigating action of disinfectants + antibiotics
Eukaryotes & Prokaryotes: Vacuole with cell sap maintains a concentration
Eukaryotes gradient for faster diffusion
o Plant Cells + Animal Cells + Fungi o Xylem
o Divide by mitosis Long tubes transport water from roots to leaves
o Animal: Very thick cell wall stabilise walls
Nucleus - Contains the genetic information for the cell + No internal structures (no chloroplasts, nucleus, etc.)
Controls the activities of the cell. easier + more space for water to flow
Cytoplasm - Liquid gel containing organelle where most o Phloem
chemical reactions happen Vessel cell contains sieve plates allows sugar to
Cell Membrane - Controls what substances go in and enter plant cells
out of the cell No nucleus easier for sugars to flow
Mitochondria - Releases energy from respiration Companion cells with many mitochondria provides
Ribosomes - Protein synthesis energy to phloem vessel cell to transport substances
Cell Wall - Keeps the structure of the cell
o Plant: Cell Differentiation:
Cell membrane As an organism develops, cells differentiate to form different
Nucleus types of cells.
Cytoplasm Most types of animal cell differentiate at an early stage.
Mitochondria Many types of plant cells retain the ability to differentiate
Ribosomes throughout life.
Cell Wall - Keeps the structure of the cell rigid In mature animals cell division is mainly restricted to
containing cellulose. repair and replacement.
Chloroplast - Needed for photosynthesis. Contains As a cell differentiates it acquires different sub-cellular
chlorophyll structures to enable it to carry out a certain function –
Permanent Vacuole - Filled with cell sap to keep cell specialised cell
rigid
Prokaryotes Microscopy:
o Bacteria Electron Microscope:
o Divide by binary fission 1. Electron Beam
Cell membrane 2. Higher magnification
Plasmids – rings of DNA 3. Higher resolution
Loose Genetic material Light Microscope:
(Flagella) – to allow it to swim 1. Light Beam
(Slime Capsule) 2. Lower magnification
Cytoplasm 3. Lower resolution
Ribosomes 4. can be used to
Comparisons Can be used to study cells in much finer detail has enabled
o Prokaryotic cells are much smaller in comparison biologists to see and understand many more sub-cellular
o Prokaryotic cells do not have their genetic material structures
enclosed in a nucleus – single DNA (+plasmids) 1mm = 1000micrometers
o Plant and algal cells have a cell wall (made of cellulose) 1 micrometre = 1000nanonmeters
which strengthens the cell Magnification
1. By how much an object is enlarged underneath a
Required Practical Activity 1: How to use a microscope microscope
2. Controlled by power of lenses used
Cell Specialisation: Resolution
Animal: 1. The minimum distance between two objects at which a
o Sperm microscope can distinguish them as separate entities
Pointy head penetrate ovum 2. Controlled by the wavelength of illumination used
Flagellum swim to ovum ¿ Image
Many mitochondria energy to swim fast Magnication=
Actual ¿ ¿ ¿
Small easy to penetrate larger ovum
o Muscle Culturing microorganisms:
Many mitochondria release energy for muscle Bacteria multiply by binary fission (Simple cell division)
contractions Once every 20 minutes if they have enough nutrients +
Layers of protein filament side over each other to suitable temperature + moisture + correct pH
cause contraction Factors affecting the speed of bacterial growth:
o Nerve 1. Temperature - most bacteria grow fastest in warm
Long axon reach different parts of the body + environments
nervous system 2. Nutrient availability - bacteria need a good supply of
Dendrites (braches) communicate with other nerve nutrients in order to grow rapidly
cells 3. Moisture - most bacteria grow fastest in moist conditions
Myelin sheath insulate nerve impulses 4. Oxygen - different types of bacteria either need the
Plant: presence or absence of oxygen for growth
o Root Hair Can be grown in a nutrient broth solution/as colonies on an
Large surface area absorb more minerals + Water agar gel plate
Thin cell wall short diffusion path for minerals to Uncontaminated cultures of microorganisms required for
enter cell investigating action of disinfectants + antibiotics
