Cell Cycle Control & Cell Division Part I (Exam IV)

Question 1

The cell cycle involves what two phases in order to create two identical daughter cells:

Answer 1

1. Replication phase
2. Division phase

Question 2

What triggers the major events of the cell cycle

Answer 2

Cell-cycle control system

Question 3

As the cell cycle proceeds, a series of ______ ensure that each phase is complete before the next one begins

Answer 3

Checkpoints

Question 4

How many many major checkpoints are in the eukaryotic cell cycle

Answer 4

Three

Question 5

What control cell proliferation

Answer 5

Cell-cycle control machinery

Question 6

Inappropriate cell proliferation

Answer 6

Cancer

Question 7

Many of the genes (proteins) involved in the cell-cycle regulation are critical determinants of:

Answer 7

Cancer progression

Question 8

G1 & G2 are the ____ phases of the cell cycle

Answer 8

Gap phases

Question 9

Phase of the cell cycle in which DNA synthesis takes place

Answer 9

S phase

Question 10

Phase of the cell cycle in which division takes place

Answer 10

M phase

Question 11

The three important check points occur during:

Answer 11

late G1 checkpoint
G2/M checkpoint
metaphase to anaphase transition checkpoint

Question 12

Checkpoint in late G1 checks for:

Answer 12

if the environment is favorable for cell division

Question 13

In the late G1 checkpoint what is being checked in the environment to insure favorable conditions:

Answer 13

Hormone signals, nutrients, etc.

Question 14

The G2/M check points is assessing whether:

Answer 14

Correct replication of DNA
Favorable environment

Question 15

If at the G2/M checkpoint the cell determines it can go on, it will enter the:

Answer 15

M phase

Question 16

The cell won’t separate the chromosome & split without the go ahead from the:

Answer 16

Metaphase to anaphase transition checkpoint

Question 17

Checkpoint that asks:

Is the environment favorable

Answer 17

Late G1 checkpoint (start checkpoint)

Question 18

Checkpoint that asks:

Is all the DNA replicated
Is the environment favorable

Answer 18

G2/M checkpoint

Question 19

Checkpoint that asks:

Are all the chromosomes attached to the spindle

Answer 19

Metaphase to anaphase transition checkpoint

Question 20

After the G1/S checkpoint the cell proceeds to:

After the G2M checkpoint, the cell proceeds to:

After the metaphase to anaphase transition checkpoint, the cell proceeds to:

Answer 20

Enters the cell cycle and proceeds to S phase

Enters mitosis

Triggers anaphase & proceeds to cytokinesis

Question 21

The cell-cycle checkpoint control system depends on:

Answer 21

1- Cyclically activated cyclin-dependent protein kinases (Cdks)

2- Cyclical proteolytic events

3- transcriptional regulation

Question 22

Triggers the events that occur in each phase of the cell cycle:

Answer 22

Cell-cycle control system

Question 23

The cell-cycle control system insures the proper _____, _____ & _____ of the events

Answer 23

Timing, order & fidelity

Question 24

Type of signals the cell-cycle control system responds to:

Answer 24

Intracellular & extracellular signals

Question 25

Whenever the cell fails to complete an essential cell-cycle process or encounters unfavorable intracellular or extracellular conditions, the cell-cycle control system:

Answer 25

Arrests

Question 26

Important critical determinants to the mammalian cell cycle:

Answer 26

Cyclin-dependent kinases (Cyclin-Cdks)

Question 27

Where the cell gets pulled out of the normal cell cycle & is put into a quiescent state:

Answer 27

G0 phase

Question 28

Cyclins & cyclin-dependent kinases are critical determinants for the transition of:

Answer 28

One cell cycle phase to the next

Question 29

For the cyclin-dependent kinases to become activated what first must occur:

Answer 29

binding of the specific cyclin that recognizes that CDK to create a complex

Question 30

Following the binding of the specific cyclin to the CDK, creating a complex, what takes place:

Answer 30

Subsequent specific phosphorylations

Question 31

The specific phosphorylations that take place on the cyclin-CDK complex turn this complex into a:

Answer 31

Activated state

Question 32

If the cyclin is not present, the CDK will be:

Answer 32

Inactive

Question 33

The initial checkpoint that occurs in late G1 involves what cyclin:

Answer 33

G1/S-cyclin pair

Question 34

The G1/S-cyclin pair comes up and reaches a peak in _____ & then the as the cell moves from G1 to S this cyclin:

Answer 34

Late G1
Falls off

Question 35

The S-cyclin is necessary for the start of:

Answer 35

Synthesis

Question 36

As the G1/S-cyclin is falling off, the S-cyclin:

Answer 36

Begins to work

Question 37

As we reach into the mitosis phase the S-cyclin ____ and the M-cyclin has reached a _____

Answer 37

Falls off
Critical level

Question 38

When does the M-cyclin level decrease:

Answer 38

Metaphase to anaphase transition

Question 39

The cyclin molecules ______ in their concentration because they are ______

Answer 39

Oscillate; induced

Question 40

Has the enzymatic activity in the cell cycle

Answer 40

CDKs

Question 41

The concentrations of the three major cyclin proteins oscillate during the cell cycle; their express is _____ to promote transitions through the cell cycle

Answer 41

Induced

Question 42

The concentrations of the Cdk do not change because they are:

Answer 42

Constitutively expressed

Question 43

Critical for determining transitions from one phase of the cell-cycle to the next

Answer 43

appearance/disappearance of cyclins

Question 44

In addition the specific necessary cyclin, the _______ or _____ initiates the metaphase to anaphase transition

Answer 44

Anaphase-promoting complex or cyclosome (APC/C)

Question 45

There are three D cyclins in mammals including:

Answer 45

Cyclins D1, D2 & D3

Question 46

During the cell-cycle processs, the CDKs are constitutively expressed in an:

Answer 46

Inactive state

Question 47

CDKs only become activate if the:

Answer 47

Proper cyclin molecule is expressed

Question 48

Why are the CDKs originally inactive:

Answer 48

Due to active site being blocked by T-loop

Question 49

What molecule is the T-loop covering & on

Answer 49

CDK

Question 50

The presence of the T-loop (folded over the active site) prevents it from:

Answer 50

Phosphorylating

Question 51

When the cyclin binds to the CDK this causes the T-loop to:

Answer 51

Change its configuration

Question 52

When the T-loop changes its configuration due to the binding of the cyclin this results in:

Answer 52

A partially activated CDK

Question 53

In order for the CDK to become fully activated, there is an enzyme called ____ that comes in and phosphorylates the T-loop

Answer 53

CDK-activating-kinase (CAK)

Question 54

The CAK is responsible for:

Answer 54

Phosphorylating the T-loop

Question 55

Where does the CAK phosphorylate the T-loop:

Answer 55

Very specific threonine

Question 56

When the threonine in of the T-loop is phosphorylated by the CAK this results in:

Answer 56

Fully activated CDK

Question 57

List the basic steps of the activation of CDK

Answer 57

1- Cyclin binds
2- T-loop moves
3- CAK phosphorylates
4- fully active CDK molecule

Question 58

Each cyclin partner is important for determining which specific targets are subsequently:

Answer 58

Phosphorylated by the CDK subunit

Question 59

Each cyclin-CDK can induce different effects at different times in the cell-cycle based upon the relative:

Answer 59

Presence, absence or abundance of each specific target

Question 60

Activation of the cyclin-CDK complex is a prerequisite for:

Answer 60

Downstream events

Question 61

The activity of each cyclin-CDK complex is finely regulated by:

Answer 61

Additional mechanisms

Question 62

Just as mutations that alter cyclin or CDK function can lead to misregulation of the cell cycle, so too can mutations that disrupt any of these regulatory mechanisms creat the possible that a:

Answer 62

Cancer of some type may occur

Question 63

The fine-tuning of the activation of the cyclin-CDK is controlled by the two enzymes:

Answer 63

Wee1-kinase
Cdc25-phosphatase

Question 64

Phosphorylates a second site on the CDK molecule rendering it inactive

Answer 64

Wee1-kinase

Question 65

What enzyme is opposed by Cdc25-phosphatase:

Answer 65

Wee1-kinase

Question 66

Removes the inhibitory phosphate, putting the cyclin-CDK back into an active state:

Answer 66

Cdc25-phosphatase

Question 67

The Wee1-kinase and the Cdc25-phosphatase give a ____ level of regulation

Answer 67

rapid

Question 68

Two groups of proteins that are really important to the cell-cycle with respect to proteolysis:

Answer 68

APC/C
SCF

Question 69

APC/C is a member of the:

Answer 69

Ubiquitin ligase family of proteins

Question 70

Anytime ubiquitin molecules get added to a protein, this flags it for:

Answer 70

Degredation

Question 71

APC/C is important in degradation of:

Answer 71

Securin & S- & M-cyclins

Question 72

Securin is involved in protecting the _____ that hold the _____ together

Answer 72

Protein linkages; sister chromatids

Question 73

Securin degradation leads to the activation of a _____ that then separates the sisters & unleashes:

Answer 73

Protease
Anaphase

Question 74

Degradation of the s- & m-cyclins leads to inactivation of the:

Answer 74

Cdks

Question 75

Loss of the Cdks means that their targets can be _____ by various _____ present in anaphase

Answer 75

Dephosphorylated
Phosphates

Question 76

The loss of the Cdks & dephosphorylation of their targets by various phosphatase that are present in anaphase completes the:

Answer 76

M phase

Question 77

APC/C is activated in ______ & remains active in ____

Answer 77

Mid-mitosis; G1

Question 78

APC/C is activated in mid-mitosis & remains active in G1 which provides a period in which:

Answer 78

Cdk is inactive

Question 79

When the G1/S-Cdks are activated in late G1 ______ is turned off

Answer 79

APC/C

Question 80

When the G1/S-Cdks are activated in late G1, APC/C is turned off allowing for:

Answer 80

Cyclin accumulation to start the next cell cycle

Question 81

APC/C activity changes during the cell cycle due to its interactions with _____ in anaphase & ____ from late mitosis through early G1

Answer 81

Cdc20
Cdh1

Question 82

Ubiquination leads to degredation by the:

Answer 82

Proteosome complex

Question 83

SCF is a:

Answer 83

Ubiquitin ligase

Question 84

SCF is comprised of what subunits:

Answer 84

S, C, F subunits

Question 85

SCF ubiquitylates:

Answer 85

Cdk inhibitor proteins (CKI)

Question 86

SCF ubiquitylates CDK inhibitor proteins in:

Answer 86

Late G1

Question 87

A common Cdk inhibitor protein:

Answer 87

P27

Question 88

The ubiquination of the Cdk inhibitor proteins allows the cell to transition from ____ to ____ as the G1/S-Cyclin comes up

Answer 88

G1 to S phase

Question 89

P27 _______ the active cyclin-Cdk complex

Answer 89

Inhibits

Question 90

One portion of the p27 Cdk inhibitor protein binds to ____ while the other portion binds to ____ of the cyclin-Cdk complex

Answer 90

Cdk portion; cyclin portion

Question 91

Where the p27 binds to the Cdk protein this occurs specifically at the:

Answer 91

Active site of the Cdk

Question 92

The p27 inactivation of the cyclin-Cdk complex is very:

Answer 92

Stable

Question 93

The most important subunit of the active SCF complex is the:

Answer 93

F-box protein

Question 94

The F-box proteins recognize the ______ when those proteins become phosphorylated

Answer 94

Cdk-inhibitory proteins

Question 95

When the F-box protein recognizes the phosphorylated CKI, this causes the CKI to get:

Answer 95

Ubiquinated

Question 96

The F-box recognizing the CKI resulting in ubiquination of the CKI ultimately results in its:

Answer 96

Degradation

Question 97

You have fine level regulation of the cyclin-Cdk complex by:

You can also physically remove the inhibitor proteins present by:

Answer 97

Phosphorylation-Dephosphorylation reactions

Ubiquitination processes by APC/C or SCF

Question 98

Cyclin genes are:

Answer 98

Inducible

Question 99

When the cyclin genes get induced at the correct time, the cell-cycle:

Answer 99

Will move into the next phase

Question 100

Phosphorylates the activating site in Cdks:

Answer 100

Cdk-activating kinase (CAK)

Question 101

Phosphorylates inhibitory sites in Cdks; primarily involved in suppressing Cdk1 activity before mitosis:

Answer 101

Wee1-kinase

Question 102

Removes inhibitory phosphates from Cdks; three family members (A, B, C) in mammals; primarily involved in controlling Cdk1 activation at the onset of mitosis:

Answer 102

Cdc25-phosphatase

Question 103

Common Cdk-inhibitor proteins (CKIs):

Answer 103

Sic1
P27
P21
P16

Question 104

Catalyzes ubiquitylation of regulatory proteins involved primarily in exit of mitosis, including securin and s- & m-cyclones; regulated by association with activating subunits:

Answer 104

APC/C

Question 105

APC/C-activating subunit in all cells; triggers initial activation of APC/C at metaphase-to-anaphase transition; stimulated by m-Cdk activity:

Answer 105

Cdc20

Question 106

APC/C-activating subunit that maintains APC/C activity after anaphase & throughout G1; inhibited by Cdk activity:

Answer 106

Cdh1

Question 107

Catalyzes ubiquitylation of regulatory proteins in G1 control, including some CKIs; phosphorylation of target protein, usually required for activity:

Answer 107

SCF

Question 108

A Cdk-inhibitor protein (CKI) that suppresses G1/S-Cdk & s-Cdk activities in G1; helps cells withdraw from the cell cycle when they terminally differentiate; phosphorylation by Cdk2 triggers its ubiquitylation by SCF:

Answer 108

P27

Question 109

The central component of the control system is the series of ____ that regulate transitions through the various phases

Answer 109

Cyclin-Cdk complexes

Question 110

The cyclin-Cdk complexes are also regulated by various ____ which provide information about the extracellular environment, DNA, or cell damage & whether each step in the cell-cycle has been properly completed

Answer 110

Inhibitory mechanisms

Question 111

In cancers a lot of the cell-cycle control mechanisms are:

Answer 111

Over-ridden

Question 112

G0 represents a:

Answer 112

Resting or quiescent state

Question 113

Cells can remain in G0 phase for:

Answer 113

Days to weeks or longer before resuming proliferation

Question 114

Cells can enter G0 phase:

Answer 114

Permanently until they die

Question 115

Cells enter G0 from a cell-cycle checkpoint in:

Answer 115

The G1 phase

Question 116

G0 entry usually occurs due to:

Answer 116

Lack of growth factors or nutrients

Question 117

G0 also occurs in cells when they reach:

Answer 117

Maturity

Question 118

An example of maturity of a cell that enter G0 could be when the cell becomes:

Answer 118

Terminally differentiated

Question 119

Examples of terminally differentiated cells:

Answer 119

Nerve cells
Heart muscle cells
Bone osteocytes

Question 120

The dREAM complex forms & leads to _____ which leads to ____

Answer 120

Histone compaction; suppression of gene expression

Question 121

The dREAM complex puts cells into a dream state where they sit there and do nothing but:

Answer 121

Metabolize

Question 122

The dREAM complex binds exclusively to:

Answer 122

Deacetylated histone H4

Question 123

The dREAM complex is induced by _____ resulting in the compaction of DNA in those regions

Answer 123

Histone modification

Question 124

The dREAM complex moves genes from a ______ state to a ______ state

Answer 124

Euchromatin to heterochromatin

Question 125

Protein (enzyme) that phosphorylates a target protein or another molecule:

Answer 125

Kinase

Question 126

Protein (enzyme) that removes a phosphate moiety from a protein or another molecule:

Answer 126

Phosphatase

Question 127

Family of protein-kinases involved in control of the cell-cycle:

Answer 127

Cyclin-dependent kinases (Cdks)

Question 128

Family of proteins that regulate Cdk activity:

Answer 128

Cyclins

Question 129

Regulatory transitions in the cell-cycle in which the cell cycle will be arrested unless specific prior biochemical events are fully completed:

Answer 129

Checkpoints

Question 130

Cell-division-cycle genes; important in cell-cycle checkpoint control:

Answer 130

Cdc

Question 131

Cdk-activating kinase:

Answer 131

CAK

Question 132

Anaphase promoting complex or cyclosome:

Answer 132

APC/C

Question 133

Cdk inhibitor protein:

Answer 133

CKI

Question 134

Ubiquitin ligase involved in cell-cycle control; named after its three subunits:

Answer 134

SCF

Question 135

Origin recognition complex: protein complex bound to origin of replication sites in DNA:

Answer 135

ORC

Question 136

Complex of proteins involved in the cell cycle control arrest & senescence by binding to the E2F family of transcription factors:

Answer 136

DREAM

Question 137

Retinoblastoma protein: involved in cell cycle regulation:

Answer 137

Rb

Question 138

Genes that turn on & off dependent upon cues from environment, hormones, etc. that need to be present in the cell:

Answer 138

Inducible gene expression

Question 139

Genes that are expressed at a constant level throughout the life of the cell:

Answer 139

Constitutive gene expression