Cell Replication Flashcards

1
Q

4 main phases of the cell cycle?

A

G1, `s, G2 (all interphase) and M phase

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2
Q

G0 phase?

A

Cell not dormant but non-dividing

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3
Q

4 reasons why cells leave G0?

A
  • Response to extracellular factors
  • Signal amplification
  • Signal integration/modulation by other pathways
  • Ras/Raf/MEK/ERK
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4
Q

3 checkpoints?

A
  • G1 checkpoint- is environment favourable?
  • G2 checkpoint- Is all DNA replicated and DNA damage repaired?
  • Mitosis checkpoint- are all chromosomes properly attached to the mitotic spindle?
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5
Q

3 facts about c-Myc?

A
  • Codes for transcription growth factors
  • Promotes G0 to G1 transition
  • c-Myc is an oncogene- overexpressed in many tumours
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6
Q

5 facts about Cdks?

A
  • Phosphorylation and dephosphorylation
  • Key signaling events
  • Allows control of events
  • Present in proliferating cells but only active when cyclin is bound (levels peak in mitosis)
  • Cyclins are synthesised and then degraded by ubiquitylation. Ubiquitin molecules are stuck on cyclins and they are degraded into amino acids .
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7
Q

3 steps to Cdk activation?

A
  1. Cyclin produced and forms an inactive cyclin-Cdk complex
  2. Protein kinases phosphorylates complex
  3. Activating protein phosphatase removes inhibiting phosphate group to activate complex
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8
Q

3 things protein kinase cascades lead to?

A
  • signal amplification
  • diversification
  • opportunity for regulation
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9
Q

How are cdks regulated?

A

Interaction with cyclin

Phosphorylation

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10
Q

How are cyclins regulated?

A

Transiently expressed at specific points of the cycle
Regulated at level of expression
Synthesised and then degraded

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11
Q

Two things that drive progression of cell cycle?

A

Induction of cyclins plus phosphorylation

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12
Q

How do cyclins give direction and timing to the cell cycle?

A

They become sequentially active and stimulate synthesis of genes required for next phase

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13
Q

Growth factor signalling?

A

Mitogen

Increased protein synthesis and less degradation therefore NET increase in protein synthesis

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14
Q

How does Rb act as a molecular brake?

A

Active Rb sequesters a TF in an inactive form so the TF’s cannot turn on genes needed for cell cycle progression

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15
Q

How is Rb inactivated?

A

Cdks phosphorylate Rb so the TF can be released

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16
Q

p53 mechanism?

A
  • X-rays cause double stranded breaks in DNA
  • p53 recognises changes and activates protein kinases that phosphorylate p53 to stabilize and activate it
  • Active p53 binds to regulatory region of p21 gene
  • p21 proteins produced to inhibit Cdk proteins
17
Q

How does p53 inhibit cdks?

A

p53 binds to p21 gene and p21 protein inhibits the cdks