Cell Cycle Control

Question 1

Can be the basis of many different medical disorders including autism, cataracts, and other congenital disorders, but the most significant is cancer

Answer 1

Deregulated cell growth

Question 2

The basis of cancer

Answer 2

Deregulated cell growth

Question 3

Accounts for nearly one quarter of the deaths in the US, and is exceeded only by heart diseases

Answer 3

Cancer

Question 4

Will be the most frequently diagnosed cancers

in men and women, respectively, followed by lung and colorectal cancers both in men and in women.

Answer 4

Prostate and Breast cancer

Question 5

Complex network of regulatory proteins that governs
DNA replication and segregation of chromosomes
through an ordered series of biochemical switches

Answer 5

Cell cycle control system

Question 6

The cell cycle is a network of

Answer 6

Positive and negative feedback loops

Question 7

The cell cycle MUST occur in a particular

Answer 7

Order

Question 8

The cell cycle is controlled by a series of

-Serve as the point of no return

Answer 8

Biochemical switches

Question 9

Once the biochemical switch is on, the cell must proceed to the

Answer 9

Next point

Question 10

What are the two types of controls that regulate the cell cycle?

Answer 10

Internal and external

Question 11

Monitors progression through the cell cycle so that each step happens in succession and delays later events until previous ones re completed

Answer 11

Internal cell cycle control

Question 12

Cells respond to environmental signals in order to stimulate cell division when more cells are needed and to block cell division when no cells are needed

Answer 12

External cell cycle control

Question 13

Function within the cell to ensure the correct progression of cell cycle events

Answer 13

Internal controls

Question 14

Allow cells to respond to both positive and negative environmental cues

Answer 14

External controls

Question 15

Defines the process where a cell duplicates itself and divides to make 2 daughter cells

-passes on IDENTICAL genetic information to daughter cells

Answer 15

Cell cycle

Question 16

The cell duplicates itself during

Answer 16

S phase

Question 17

The cell produces the two daughter cells during

Answer 17

M phase

Question 18

M phase is separated in to which 2 stages?

Answer 18

1. ) Mitosis

2. ) Cytokinesis

Question 19

Nuclear division of the cell

-goes from prophase to telophase

Answer 19

Mitosis

Question 20

Cytoplasmic division into two daughter cells

-the last part of telophase

Answer 20

Cytokinesis

Question 21

Interphase is all of the cell cycle that is not the M phase, and is made up of

Answer 21

G1, S, and G2 phases

Question 22

Time delay for cell to grow (accumulate mass) and monitor intra- and extra- conditions

Answer 22

G1 and G2 phases

Question 23

A point that exists at the end of G1 that measures the favorability of the environment

Answer 23

Restriction point

Question 24

Once cells pass through the restriction point, they are committed to

Answer 24

DNA replication

Question 25

If the environmental signals become unfavorable AFTER the restriction point is passed, can the cell stop DNA replication?

Answer 25

No

Question 26

What happens if the environmental conditions are unfavorable at the restriction point?

Answer 26

Cells are arrested in G0 until conditions become favorable

Question 27

Allows the cell cycle to keep progressing forward and initiate the cellular events required for each step of the cell cycle

Answer 27

Regulated production/activation of proteins at specific times

Question 28

Triggers mitosis machinery

Answer 28

Assembly of mitotic spindle

Question 29

Cell cycle progression is controlled by the sequential activation of a set of kinases called

Answer 29

Cyclin dependent kinases (Cdks)

Question 30

Phosphorylate different proteins at different times in the cell cycle, which then initiates or regulates key events in the cell cycle

Answer 30

Cyclin-dependent kinases (Cdks)

Question 31

For activity, Cdks are dependent on other proteins called

Answer 31

Cyclins

Question 32

The activity of these kinases increase or decrease during different phases of the cell cycle

Answer 32

Cdks

Question 33

Different cyclins exist for different phases of the

Answer 33

Cell cycle

Question 34

Cyclins bind to their partner Cdks, activating the Cdks kinase activity, enabling them to phosphorylate downstream targets. Once this is accomplished, what happens?

Answer 34

Cyclins are degraded and Cdks are thus inactivated

Question 35

What are the four classes of Cdks?

Answer 35

1. ) G1 Cdk
2. ) G1/S Cdk
3. ) S Cdk
4. ) M Cdk

Question 36

Promotes passage through the restriction point

Answer 36

G1 Cdk

Question 37

Commits cell to replication

Answer 37

G1/S Cdk

Question 38

Initiates replication

Answer 38

S Cdk

Question 39

Promotes mitosis

Answer 39

M Cdk

Question 40

Act as the molecular switches of the cell cycle

Answer 40

Cyclin-Cdk complexes

Question 41

An important aspect of the cell cycle is to inactivate the Cdk-cyclin complexes to ensure that each cellular event is triggered only

Answer 41

Once per cell cycle

Question 42

Functions to conrtol the initiation of DNA replication once per cell cycle at replication origins

Answer 42

S-Cdk

Question 43

A large multi-protein complex binds to the origins of replication. There are called the

Answer 43

Origin Recognition Complex (ORC)

Question 44

Bind to origins throughout the cell and act as landing pads for other regulatory proteins to initiate replication at different positions throughout the genome

Answer 44

Origin Recognition Complex (ORC)

Question 45

What is part one of the control of initiation of replication or entry into S phase?

Answer 45

Cdc6

Question 46

Cdc6 is usually present at low levels throughout the cell cycle. but increases transiently in

Answer 46

Early G1

Question 47

Binds to ORCs, which in turn causes recruitment of the Mcm proteins

Answer 47

Cdc6

Question 48

What types of proteins are the Mcm proteins?

Answer 48

Helicases

Question 49

All together, the ORC, Cdc6, and Mcm complex is called the

Answer 49

Pre-replicative complex (pre-RC)

Question 50

Functions to have the pre-RC poised to replicate the DNA

Answer 50

Cdc6

Question 51

Triggers replication by assembling DNA polymerase at the origin and activating the Mcm proteins

Answer 51

S-Cdk

Question 52

What is part two of the control of initiation of replication or entry into S phase?

Answer 52

S-Cyclin

Question 53

After Cdc6’s activity, the origin is now ready to fire, but it requires the activity of

Answer 53

S-Cdk

Question 54

S-cyclin transcription is activated in

Answer 54

Late G1

Question 55

Forms and activates S-Cdk, which then phosphorylates the pre-RC, activating replication

Answer 55

S-cyclin-Cdk complex

Question 56

Also prevents the re-replication of DNA. This is an example of one of the checks and balances that is important for cell control

Answer 56

S-Cdk

Question 57

Causes Cdc6 to dissociate from ORC after origin has fired for replication

-results in disassembly of pre-RC

Answer 57

Phosphorylation of Cdc6 by S-Cdk

Question 58

The dissociation and phosphorylation of Cdc6 from the ORC also causes its

Answer 58

Degredation

Question 59

Also phosphorylates Mcm/helicase proteins and causes their export from the nucleus

Answer 59

S-Cdk

Question 60

S-Cdk activity remains high during G2 and mitosis causing the Cdc6 protein to always be phosphorylated, therefore preventing

Answer 60

Re-replication

Question 61

Also ensures no re-replication by also phosphorylating Cdc6 and Mcm proteins

Answer 61

M-Cdk

Question 62

To allow replication at the end of a cell cycle, all Cdk activity is reduced to zero at the end of

Answer 62

Mitosis

Question 63

Similar to S phase, the M phase is poised and ready to go. It is activated by

Answer 63

M-Cdk

Question 64

The regulation of M-Cdk is controlled by which three proteins?

Answer 64

1. ) M cyclin
2. ) Cdk Activating Kinase (CAK)
3. ) Cdk Inhibitory Kinase (Wee1)

Question 65

Gradually increases during G2 and M phases due to transcription of the gene

Answer 65

M Cyclin

Question 66

When M cyclin binds M-Cdk, the complex is only partially active. It become fully active after phosphorylation by

Answer 66

Cdk-activating kinase (CAK)

Question 67

Only partially activate Cdks

Answer 67

Cyclins

Question 68

When M cyclin binds M-Cdk, the complex is only partially active. It become fully active after phosphorylation by CAK. Before the complex can do anything, it is inactivated by

Answer 68

Cdk-inhibitory kinase (Wee1)

Question 69

Removes the inhibitory phosphate added by Wee1 and re-activates the complex

-Shows how the M-Cdk complex is poised for activation

Answer 69

Cdc25

Question 70

The M-Cdk compex contains a cyclin, and activating phosphate (from CAK) and an inhibitory phosphate (from Wee1). It is activated when the phosphate from Wee1 is cleaved by Cdc25. This shows how the M-Cdk complex is

Answer 70

Poised for activation

Question 71

When the M-Cdk complex is active, it phosphorylates and activates proteins that are important in

Answer 71

Assembly of mitotic spindle, chromosome condensation, and breakdown of nuclear envelope

Question 72

One feedback loop that enables more M-Cdk to become activated is that active M-Cdk inhibits

Answer 72

Wee1

-prevents inhibition of other M-Cdk’s

Question 73

Another feedback loop that enables more M-Cdk to become activated is that active M-Cdk phosphorylates more

Answer 73

Cdc25

-activates more of the phosphatase and leads to more active M-Cdk

Question 74

Exit from mitosis requires inactivation of M-Cdk, which occurs primarily through protein degradation by

Answer 74

Ubiquitination

Question 75

The protein that causes M-Cdk degradation is a ubiquitin ligase called

Answer 75

Anaphase Promoting Complex (APC)

Question 76

APC is activated by

-A negative feedback loop

Answer 76

Active M-Cdk

Question 77

A phase with absolutely no Cdk activity

Answer 77

G1

Question 78

What are the three mechanisms to ensure that there is no Cdk activity in G1?

Answer 78

1. ) Ubiquitin mediated degradation of Cdks
2. ) Cyclin Kinase Inhibitor (CKI) accumulation
3. ) Decreased Cyclin Transport

Question 79

In animal cells, decreased cyclin transport is mediated by the

Answer 79

Retinoblastoma (Rb) protein and the E2F transcription factor

Question 80

Bind to Cdk-Cyclin complexes and inhibit their activity

Answer 80

Cdk Inhibitor Proteins (CKIs)

Question 81

CKI production is increased during

Answer 81

G1

Question 82

A transcription factor that reglates the expression of many genes required for entry into S phase including
G1/S and S cyclins

Answer 82

E2F

Question 83

E2F function is controlled in part by the

-binds E2F during G1 and blocks its activity

Answer 83

Rb Protein

Question 84

Rb binding E2F during G1 results in downstream genes (i.e. G1/S and S cyclins) not being

Answer 84

Transcribed

Question 85

When cells receive and extra-cellular signal to divide, G1-Cdk accumulates and

-reduces affinity of Rb for E2F, which prevents inhibition

Answer 85

Phosphorylates Rb

Question 86

Phosphorylates Rb, reducing its affinity to E2F. This then results in the
expression of G1/S and S cyclin

Answer 86

G1-Cdk

Question 87

Loss of both copies of the Rb gene leads to

Answer 87

Retinoblastoma

Question 88

Increases its own expression once released by Rb inactivation

-positive feedback

Answer 88

E2F

Question 89

E2F expression leads to production of

-phosphorylates more Rb, thereby releasing more E2F

Answer 89

G1/S-Cdk and S-Cdk

Question 90

The increase in G1/S-Cdk and S-Cdk causes the phosphorylation and destruction of

-activates more G1/S-Cdk and S-Cdk

Answer 90

Ubiquitin ligases and CKIs

Question 91

The function of the cell cycle is to transmit IDENTICAL genetic information to the daughter cells so that there is not an accumulation of

Answer 91

Somatic mutations

Question 92

There are 2 checkpoints in the cell cycle to make sure that DNA is ok. These occur in

Answer 92

Late G1 and Late G2

Question 93

In G2, if the DNA is damaged then this sends a signal that blocks

Answer 93

Cdc25 activation

Question 94

What happens when activation of Cdc25 is blocked by the G2 checkpoint?

Answer 94

M-Cdk is not activates and cell does not progress to mitosis

Question 95

The G1 checkpoint prevents progression into S phase by inhibiting the activation of

Answer 95

G1/S-Cdk and S-Cdk complexes

Question 96

The activity of the G1 checkpoint is controlled in part by

Answer 96

p53

Question 97

Stimulates the expression of several genes including the CKI protein p21

Answer 97

p53

Question 98

The CKI then binds G1/S-Cdk and S-Cdk and inactivates them, which

Answer 98

Prevents passing of the restriction point

-No S phase entry