Cell cycle and cell division

Created by

Leo Bennett

Cards (32)

State three cell cycle checkpoints and briefly describe what is being checked for at each
G1/S - Checks for size, growth factors, nutrients, DNA damage
G2/M - Checks DNA has been properly replicated
Spindle assembly - Checks chromosomes have correctly attached to spindle fibres.
Describe the difference between anaphase I and anaphase II
In anaphase I, a homologous pair of chromosomes is separated so the chromosome number halves(2 haploid cells made); in anaphase II, sister chromatids of each chromosome are separated so chromosome number stays the same(haploid number maintained)
Describe the main events if metaphase
Chromosomes line up along equator(metaphase plate); spindle fibres attach through centromeres.
Give four features of meristematic cells that means they can differentiate easily
Thin walls with very little cellulose; no chloroplasts; no large vacuole; divide by mitosis and have the ability to differentiate into many cell types.
State three types of muscle tissue, giving an example of where each is found
Skeletal - Bicep/tricep etc.
Smooth - Digestive tract, blood vessels
Cardiac muscle - Heart walls
Describe how meiosis produces genetic variation in the gametes produced
Crossing over in prophase I; independent assortment in metaphase I; independent assortment in metaphase II
What is differentiation?
The process by which a cell develops to become more distinct in form and function
Describe the main events of anaphase
Sister chromatids pulled to opposite poles of the cell by shortening tubulin spindle fibres
What is meiosis?
The formation of gametes. Genetically unique with half the genetic information of the somatic cell.
In which stage of meiosis is the chromosome number halved
Anaphase/telophase I
Describe what may happen in G0 phase of the cell cycle
Cells may undergo apoptosis, differentiation or senescence
Describe the purpose of the cytoskeleton threads and motor proteins in palisade cells
Moves the chloroplasts to areas of appropriate light intensity
Describe and explain how sperm cells are adapted for their function
Acrosome in head contains enzymes to penetrate the egg follicle during fertilisation.
Many mitochondria to generate ATP for flagellar movement.
Large haploid nucleus in head to fertilise haploid ovum.
Explain why genetic variation is important for a population of organisms
More likely that some individuals are adapted to a change in the environment, so the population can survive
Describe how a root hair cell plasma membrane is adapted for transport of mineral ions
Contains specialised carrier proteins so transport specific mineral ions by active transport.
Describe how guard cells open in sunny conditions
Light energy --> ATP; ATP used to actively transport potassium ions from epidermal cells into guard cells; water potential of guard cells lowered; water moves in by osmosis and guard cells become turgid
Describe the main events of telophase
Nuclear envelope reforms around each set of chromosomes; chromatin relaxes; nucleolus reappears
State three events that occur in G1 phase of the cell cycle
Cells grow and increase in size
Proteins from which organelles are made are synthesised(transcribed and translated)
Organelles replicate
Describe how cartilage is adapted for its function
Connective tissue that contains elastin and collagen fibres; prevents ends of bones from rubbing together
Which stain would we use to stain chromosomes in a root tip squash?
Acetic orcein
State three characteristics of stem cells
Undifferentiated
All genes able to be expressed
Self-renewing
Able to differentiate into any cell type
Explain why a neutrophil contains many lysosomes
These contain hydrolytic enzymes which digest pathogens
What happens during the G2 phase?
Second growth phase, proteins which involved in making the chromosomes condense are synthesised(transcribed and translated).
Describe and explain how erythrocytes are adapted for their function
Very small so have a large SA:V(biconcave shape also ensures this) meaning oxygen can reach all regions inside the cell.
Well-developed cytoskeleton allows the erythrocytes to change shape and move through very narrow capillaries
No nucleus or organelles so more space for Hb molecules
Why would we use the root tip for investigating mitosis?
It is the location of meristematic tissue(source of stem cells) in a plant, i.e. cells are actively dividing
What happens during the S phase of the cell cycle?
This is the synthesis phase, DNA is replicated
Describe the differences between multipotent, pluripotent and totipotent stem cells
Multipotent - Found in bone marrow and can form a range of different cells including blood cells.
Pluripotent - Found in early embryos(embryonic stem cells) and can form all tissue types except extra-embryonic cells.
Totipotent - Found in the first 16 cells post-zygote and can form all tissue types including extra-embryonic tissue(e.g. placenta, umbilical cord).
Describe how cytokinesis differs between dividing animal cells and plant cells
Animal cells - Cleavage furrow forms and plasma membrane is pulled inwards, splitting the cytoplasm
Plant cells - Vesicles assemble around metaphase plate and fuse; new plasma membrane and cellulose cell wall are laid down
Define the term tissue
A group of cells working together to perform a particular function
State the three purposes of mitosis in life cycles
Asexual reproduction
Growth
Tissue repair
Replacement of cells
Explain why we warm the root tips in hydrochloric acid when preparing a root tip squash
To break the links between cellulose cell walls in plant cells; this ensures the stain penetrates the cells and binds to the chromosomes
Describe the main events of prophase
Nuclear envelope breaks down; chromatin condenses(DNA supercoils); nucleolus disappears; spindle fibres start to form from centrioles.