M2, C6 Cell Divisions

Question 1

what happens during interphase

Answer 1

• DNA is replicated and checked for errors in the nucleus
• protein synthesis occurs in the cytoplasm
• mitochondria grow and divide, increasing in number
• in plant cells chloroplasts grow and divide
• normal metabolic process occur like respiration

Question 2

what are the three stages of interphase

Answer 2

G1 - protein synthesis, organelles replicate, cell increases in size
S - synthesis phase: DNA is replicated in the nucleus
G2 - cell continues to increase in size, energy stores increase and duplicated DNA is checked for errors

Question 3

what stages does the mitotic phase include

Answer 3

mitosis - nucleus divides

cytokinesis - cytoplasm divides and two cells are produced

Question 4

why would a cell enter G0 phase

Answer 4

• for a cell that becomes specialised and no longer is able to divide
• the DNA could be damaged so is no longer viable

Question 5

what does it mean if a cell is senescent

Answer 5

it can no longer divide

you get more of these cells as you age which leads to the risk of disease

Question 6

why are their checkpoints in the cell cycle

Answer 6

ensure the cell only divides when it has grown to the right size,
there are no errors in DNA replication

Question 7

what does the G1 checkpoint check for

Answer 7

cell size
nutrients
growth factors
DNA damage

if these are there then the cell enters S phase
if not it enters G0

Question 8

what does the G2 checkpoint check for

Answer 8

cell size
DNA replication
DNA damage

if satisfactory then the cell enters the mitotic phase
if not then it enters resting state

Question 9

what does M (mitotic) checkpoint check for

Answer 9

chromosome attachment to spindle

mitosis doesn’t proceed unless this checkpoint is passed

Question 10

define mitosis

Answer 10

a type of cell division that results in 2 genetically identical diploid daughter cells are produced

Question 11

why is mitosis important

Answer 11

growth
repair tissues
asexual reproduction

Question 12

what is the centromere

Answer 12

the region of a chromosome to which the microtubules of the spindle attach during cell division.

Question 13

what are chromatids

Answer 13

each of the two thread-like strands into which a chromosome divides longitudinally during cell division. Each contains a double helix of DNA.

Question 14

what are the phases of mitosis

Answer 14

prophase
metaphase
anaphase
telophase
cytokinesis

Question 15

what happens in prophase in mitosis

Answer 15

chromatin condenses and becomes inactive
centrioles migrate in pairs to opposite poles and the nuclear envelope and nucleolus break up
the mitotic spindle begins to form at the centrioles

Question 16

what is chromatin

Answer 16

DNA wrapped around proteins called histones

Question 17

what happens during the metaphase in mitosis

Answer 17

the mitotic spindle grows further and attaches to the centromere of each chromosome
the fibres then arrange the chromosomes to line up along the cell equator

Question 18

what happens during anaphase in mitosis

Answer 18

the centromere of each chromosome breaks

sister chromatids separate into daughter chromosomes

Question 19

what happens during telophase in mitosis

Answer 19

new nuclear membranes and nucleoli form

the chromosomes uncondense

Question 20

what happens during cytokinesis in animal cells

Answer 20

Actin ring forms in the centre of the cell and pinches inwards forming cleavage furrow
Cell-surface membrane pulled inwards by cytoskeleton and fuse forming two cells.

Question 21

what happens during cytokinesis in plant cells

Answer 21

vesicles from the Golgi apparatus begin to assemble between the two nuclear envelopes
the vesicles fuse with each other forming the cell surface membrane which divides the cell into 2
cell wall then form along the new membrane which splits the cell

Question 22

how are gametes formed

Answer 22

meiosis

Question 23

why is a gamete said to be haploid

Answer 23

contains half the chromosome number of the parent cell

Question 24

what are homologous chromosomes

Answer 24

a pair of same chromosomes, one from each parent
have the same genes but can different alleles of each gene
Same length and same centromere position

Question 25

what are alleles

Answer 25

different versions of the same gene

Question 26

in meiosis 1 what happens during prophase

Answer 26

chromosomes condense
nuclear envelope disintegrates
nucleolus disappears
spindle formation begins
homologous chromosomes pair up, forming bivalents
chromatids entangle - crossing over

Question 27

in meiosis 1, what happens during metaphase

Answer 27

homologous pairs of chromosomes assemble along the metaphase plate
the orientation of the pair is random
the maternal or paternal chromosomes can end up facing either pole - independent assortment - leads to genetic variation

Question 28

in meiosis 1, what happens during anaphase

Answer 28

homologous chromosomes are pulled to opposite poles and chromatids stay joined together

Question 29

in meiosis 1, what happens during telophase

Answer 29

chromosome assemble at each pole
nuclear membrane reforms
chromosomes uncoil/uncondense
cell undergoes cytokinesis and divides into 2 cells

the reduction of chromosome number from diploid to haploid is complete

Question 30

in meiosis 2, what happens during prophase

Answer 30

chromosomes that have 2 chromatids condense and become visible again
nuclear envelope breaks down
spindle formation begins

Question 31

in meiosis 2, what happens during metaphase

Answer 31

the individual chromosome assemble in a random order on the metaphase plate- independent assortment
spindle fibres attach to centromere

Question 32

in meiosis 2, what happens during anaphase

Answer 32

individual chromosomes are pulled to opposite poles

Question 33

in meiosis 2, what happens during telophase

Answer 33

chromatids assemble at the poles
chromosomes uncoil and form chromatin again
nuclear envelope reforms and the nucleolus becomes visible
cytokinesis results in division of the cells forming 4 daughter cells
the cells will be haploid due to the reduction division
they are all genetically different from each other and the parent cell

Question 34

what does a differentiated cell mean

Answer 34

they are specialised to carry out very specific functions

Question 35

how are erythrocytes specialised

Answer 35

have a flattened biconcave shape
increases surface area : volume
essential for transporting oxygen
no nucleus or organelles to maximise space for haemoglobin
flexible to squeeze through narrow capillaries

Question 36

how are neutrophils (type of white blood cell) specialised

Answer 36

have a multi-lobed nucleus so they can squeeze through small gaps to get to the site of infection
contain many lysosomes to attack pathogens

Question 37

how are sperm cells specialised

Answer 37

tail or flagellum for movement
lots of mitochondria to supply energy
acrosome on the head contains digestive enzymes to break through the egg

Question 38

how are palisade cells specialised

Answer 38

contain lots of chloroplasts which can absorb large amounts of light for photosynthesis
rectangular box shape to tightly pack in a continuous layer
thin cell walls for increased diffusion of co2
large vacuole to maintain turgor pressure

Question 39

how are root hair cells specialised

Answer 39

long extensions called root hairs to increase surface area

maximises uptake of water and minerals from the soil

Question 40

how are guard cells specialised

Answer 40

thick inner wall thin outerwall
large vacuole to maintain high turgor pressure
thick waxy cuticle
Stomatal aperture allows diffusion of gasses

Question 41

what are the 4 main categories of animal tissues

Answer 41

nervous tissue
epithelial tissue
muscle tissue
connective tissue

Question 42

how is squamous epithelium tissue specialised

Answer 42

very thin - one cell thick
for rapid diffusion
forms the lining of the lungs for diffusion of oxygen into the blood

Question 43

how is ciliated epithelium tissue specialised

Answer 43

cilia that move in a rhythmic manner to move mucus along

goblet cells are also present to release mucus to trap pathogens

Question 44

how is cartilage tissue specialised

Answer 44

connective tissue
contains elastin and collagen
firm and flexible
prevents ends of bones rubbing together

Question 45

how is muscle tissue specialised

Answer 45

able to shorten in length in order to move bones

contains contractile proteins and myofibrils

Question 46

how is epidermis tissue specialised

Answer 46

covered by a waxy, waterproof cuticle to reduce loss of water
closely packed cells
contains stomata which can open and close due to the guard cells
allows water, oxygen and carbon dioxide in and out

Question 47

how is xylem tissue specialised

Answer 47

composed of dead cells
walls are strengthened by lignin which is waterproof
structural support for plants
bordered pits allow water to leave 
no end walls create long continous tube

Question 48

how is phloem tissue specialised

Answer 48

composed of columns of sieve tube cells separated by perforated walls called sieve plates
companion cells contain a lot of mitochondria so a lot of ATP is available for the active loading of sucrose

Question 49

define an organ

Answer 49

collection of tissues that are adapted to perform a particular function in an organism

Question 50

give examples of animal organ systems

Answer 50

digestive system
cardiovascular system (movement of blood)
gaseous exchange system

Question 51

what organs are involved in the digestive system

Answer 51

oesophagus
rectum
stomach
large intestine
small intestine
liver
mouth
anus

Question 52

what organs are involved in the nervous system

Answer 52

nerves

brain

Question 53

what organs are involved in the urinary system

Answer 53

bladder
ureter
kidneys
urethra

Question 54

what organs are involved in the circulatory system

Answer 54

veins
arteries
heart
capillaries

Question 55

what organs are involved in the respiratory system

Answer 55

trachea
bronchi
bronchioles
lungs

Question 56

what organs are involved in the musculoskeletal system

Answer 56

muscles

bones

Question 57

what are stem cells

Answer 57

undifferentiated cells so they don’t have a specific function
they have the potential to differentiate into a specialised cell

Question 58

what is the term for a stem cells ability to differentiate

Answer 58

potency

Question 59

define totipotent

Answer 59

these stem cells can differentiate into any type of cell, forming a whole organism
eg. a fertilised egg

Question 60

define pluripotent

Answer 60

these stem cells can form all tissue types but not whole organism

Question 61

define multipotent

Answer 61

these stem cells can only form a range of cells within a certain type of tissue

Question 62

what stem cells have blood cells derived from

Answer 62

stem cells in the bone marrow

Question 63

what are the sources of animal stem cells

Answer 63

embyros - these are totipotent

tissues like bone marrow - these are multipotent

umbilical cords - multipotent

Question 64

what are the sources of plant stem cells

Answer 64

meristematic tissue (meristems) - found wherever growth is occurring in plants or between xylem and phloem - it is pluripotent

Question 65

what are the potential uses of stem cells

Answer 65

heart disease - repair muscle tissue in the heart
type 1 diabetes - for insulin-producing cells
Parkinson’s disease - for dopamine-producing cells in the brain

Question 66

what are stem cells currently being used for

Answer 66

treatment of burns - new skin
drug trials - can be tested on stem cells before animals
developmental biology

Question 67

what are the reasons for using stem cells

Answer 67

• saves lives
• improves peoples lives
• embryos have been donated, were going to be discarded of anyway
• could save NHS lots of money as people wouldn’t need medicine or operations

Question 68

what are the reasons against using stem cells

Answer 68

• embryos are destroyed
• religious objections - belief life begins at conception so destroying embryos is murder
• costs a lot of money - too much of a risk