Cell cycle and cell division

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    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.
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