Cell Cycle

Question 1

what is known as stage G0

Answer 1

the quinescent stage

- when the cell isn’t dividing- part of GI

Question 2

which signal cascades occur during preparation for divisions

Answer 2

JAK/STAT, MAPK, P13K, Src

Question 3

what do JAK/STAT, MAPK, P13K, Src signaling before division cause

Answer 3

transcription of Cyclin D and CDK 4/6

Question 4

in order to pass via any checkpoint you need

Answer 4

both cyclins and CDKs

Question 5

activation of cyclin D occurs especially via

Answer 5

Wnt and MAPK

Question 6

Activation of cyclin D via Wnt

Answer 6

1) Wnt binds to frizzled
2) APC/axin and GSK3beta (kinase) i complex
3) dishevelled binds to APC- activating APCs inhibition GSKbeta
4) therefore GSKbeta doesn’t phosphorylate Beta-Catedin
5) Beta-Catedin (TF) translocates to the nucleus where it transcribes cyclin D and CDK4/6

Question 7

activation of cyclin D viaMAPK

Answer 7

1. EGF/ mitogen bind to TK
2. Trans- Autophosphorylation
3. Recruiting Grb2/SOS
4. Activated SOS bind to RAS (small GTP) and activates by phosphorylation
5. RAS- RAF-MEK-ERK
6. ERK= TF
7. Produces cyclin D and CDK4/6 produced

Question 8

role of Cyclin D/ CDK 4/6

Answer 8

transitions the cell to G1 out of G0 and also used at the G1/s checkpoint

Question 9

only the the concentration of Cyclin D and CDK4/6 reaches a threshold

Answer 9

can the cell cycle progress

Question 10

what occurs during G1

Answer 10

cell synthesises mRNA and proteins to prepare for organelle and DNA replication

Question 11

absence of int and p53

Answer 11

will stop cyclin D and CDK4/6 being produced- therefore no cell cycle profression

Question 12

what causes absence of p53

Answer 12

p21/p27

Question 13

relationship between cyclins and CDKs

Answer 13

cyclins and CDK (kinase) complex, when cyclins binds to CDK they are change conformational (partially activated). Become fully active by phosphorylation by CAK (CDK activating kinase

Question 14

what fully activates cyclins and CDK complexes

Answer 14

CAS- CDK activating eznyme

Question 15

what CDKs and cyclins are produced during G1/S

Answer 15

cyclin D and cyclin E and CDK 4, 6, 2

Question 16

which pathway used in G1/s

Answer 16

RB/E2F

a) Activated cyclinD and CDK complex causes RB to release E2F
b) E2F can translocate to the nucleus and cause transcription of the next cyclin Cyclin E and CDK2
c) CDk2 and cyclin E complex

Question 17

when cell damage has occurred and mitosis needs to be stopped

Answer 17

-p21/p27 block the association of cyclin/cdk complexes
they block the phosphorylation of the complexes by blocking CAK (steric hinderence)
e.g. P21/P27 preventing Cyclin D/CDK4/6 from activating RBand therefor eRB/ E2F do not dissociated and E2F cannot translocate to the nucleus and can cause transcription of Cyclin E and CDK2

Question 18

p53 pathways transcribes

Answer 18

p21/p27

Question 19

P53 pathway

Answer 19

P53 which transcribed P21/P27

• Activated during DNA damage
  a) During cell damage ATM kinase activated
  b) This phosphorylates Chk kinase ½ which causes P53 to dislocates from MDM2
  c) P53 transolcates to the nucleus and repairs DNA and also transcribes P21/P27

Question 20

how to P21 and P27 stop mitosis

Answer 20

e.g. P21/P27 preventing Cyclin D/CDK4/6 from activating RB and therefor eRB/ E2F do not dissociated and E2F cannot translocate to the nucleus and can cause transcription of Cyclin E and CDK2

Question 21

S1 phase

Answer 21

• Cyclin A resides in the nucleus and associates with CDK2
• When the quantity of cyclinA/CDK2 complex reaches the threshold value it inhibits cyclin E
• This suppresses previous cycles i.e. the cell cycle can progress and not start another cycle

Question 22

cyclins in S1 phase

Answer 22

cyclin A and CDK 2

Question 23

G2 phase

Answer 23

Cells checks for faithful replication of DNA
Produces proteins needed for cell division
- Cyclin B complexes with CDK2 (suppressed by p21, p27)
- Cyclin B causes transcription of proteins important in spindle formation e.g. microtubules

Question 24

cyclins ing G2

Answer 24

cyclin B and CDK2 - transcription of microtubules for spindle formation

Question 25

G2/M checkpoint

Answer 25

In a normal cell:

a) Wee1 is phosphorylated
b) Meaning it can be tagged with ubiquitin (E1, E2, E3 ubiquitin ligase)
c) Sent to proteasome for degradation
d) Cyclin B then complexes with other proteins which allows transition through G2/M checkpoint

Question 26

metaphase

Answer 26

• Centrioles migrate to the piles
• Radiate spindle (microtubule)
• Spindle fibre binds to cohesion preventing premature chromosome separation)

Question 27

what is important in metaphase

Answer 27

that all chromosomes are attached to spindles at the kinetochore

Question 28

how does the cell check all spindle fibre are bound to the kinetochore

Answer 28

• Spindle fibre binds to cohesion preventing premature chromosome separation
• P31 is released from cohesion when all spindle fibres are bind to kinetochore
• Causing APC to bind to securing/seperase
• Seperase binds to cohesion and allows spindles to contract and pull chromosomes apart

Question 29

mitochondria

Question 30

H2O2 inhibits pathways such as

Answer 30

MAPK, P53 stopping initiation of cell cycle

Question 31

p53 causes the transcription of

Answer 31

p21/ p27

Question 32

p21/p27

Answer 32

produced due to p53 transcribing them

- stop cell cycle progression by inhibiting CAK