Cytoskeleton I

Question 1

Establishes cellular polarity

Answer 1

Cytoskeleton

Question 2

Performs directional migration

Answer 2

Cytoskeleton

Question 3

Responsible for the formation of the bipolar mitotic/meiotic spindle

Answer 3

Cytoskeleton

Question 4

What are four major roles of the cytoskeleton?

Answer 4

1. ) Establishes cell polarity
2. ) Directional migration
3. ) formation of mitotic/meiotic spindle
4. ) Chromosome segregation

Question 5

Also responsible for cytokinesis, intracellular transport, exocytosis, and endocytosis

Answer 5

Cytoskeleton

Question 6

What are the three cytoskeletal components?

-have different distributions in the cell

Answer 6

Actin, Intermediate filaments, Microtubules

Question 7

Cytoskeletal components have different distributions, this is important for cell

Answer 7

Shape & polarity, and tissue formation

Question 8

Side that is towards the lumen

Answer 8

Apical face

Question 9

Side that is towards the basement membrane

Answer 9

Basal face

Question 10

Are assembled from smaller protein subunits

• Non-covalent polymers
• Dynamic

Answer 10

Cytoskeletal structures

Question 11

Intermediate in size between actin filaments and microtubules

-more stable-the “tendons” of the cell

Answer 11

Intermediate filaments

Question 12

Major components of the cytoskeleton and nuclear boundary and functional organization of cellular architecture

Answer 12

Intermediate filaments

Question 13

Intermediate filaments provide protection from

Answer 13

Mechanical stress

Question 14

Viscoelastic filaments within cells and at junctions between cells

-Stress absorbers

Answer 14

Intermediate filaments

Question 15

Intermediate filaments have a role in signaling and controlling gene regulatory

Answer 15

Networks

Question 16

Do intermediate filaments have any known associated motors?

Answer 16

No

Question 17

Surround the nucleus, extend to cell periphery, and at cell-cell and cell-ECM junctions

Answer 17

Intermediate filaments

Question 18

Intermediate filaments are dynamic. They are controlled by

Answer 18

Phosphorylation

Question 19

What are four main functions of intermediate filaments?

Answer 19

1. ) Mechanical support
2. ) Cytoarchitecture
3. ) Cell migration and movement
4. ) Signal modulation

Question 20

Large family of proteins (~70 genes) including keratins, neurofilaments, nuclear lamins among others. Many disease-assoc. mutations.

Answer 20

Intermediate filaments

Question 21

What is the basic structure of an intermediate filament?

Answer 21

Two chained coil that assembles to form tetramer

Question 22

The N-terminal and C-terminal ends of intermediate filaments are globular, and their coiled coil region is interupted by

Answer 22

Linker domains

Question 23

Intermediate filaments assemble as antiparallel tetramers. In contrast to actin filaments and microtubules, the overall structure is

Answer 23

Not polar

Question 24

Mutations in lamins cause

Answer 24

Laminopathies

Question 25

Mutations in keratins cause

Answer 25

Skin blistering diseases

Question 26

Actin filaments (F-actin) are polymers of the
globular protein, actin (G-actin), that contains a
bound

Answer 26

Nucleotide (ATP or ADP)

Question 27

Are actin filaments polar?

Answer 27

Yes

Question 28

In an actin filament, what is the

1. ) fast growing end?
2. ) slow growing end?

Answer 28

1. ) “plus” or barbed end

2. ) “minus” or pointed end

Question 29

The overall shape of the actin filament is

Answer 29

Helical

Question 30

Modify the actin filament dynamics and higher order assemblies

Answer 30

Actin binding proteins

Question 31

Both assembled from globular proteins by a condensation-polymerization mechanism to form a polar structure

Answer 31

Microtubules and actin filaments

Question 32

The preferred end of monomer addition to actin and microtubules is the

Answer 32

Plus end

Question 33

What do microtubules and actin filaments have at the growing end?

Answer 33

ATP or GTP cap

Question 34

Is energy required for polymerization of actin filaments or microtubules?

Answer 34

No

Question 35

Given all their similarities, are actin filaments and microtubules related?

Answer 35

No

Question 36

The rate limiting step of elongating the barbed or “plus end of actin filaments or microtubules is

Answer 36

Nucleation

Question 37

Preferentially added to the barbed (+) end of actin filaments

Answer 37

ATP-actin

Question 38

ATP hydrolysis is not required for polymerization, but the bound nucleotide influences stability of the ends and interactions with other

Answer 38

Proteins

Question 39

Most of an actin filament is made up of ADP-actin, with the exception of the extreme

Answer 39

Barbed end

Question 40

In actin filaments and microtubules, hydrolysis of NTP to NDP takes place after

Answer 40

Polymerization

Question 41

Soluble actin or microtuble subunits are in the

Answer 41

T form

Question 42

Actin filament and microtubule polymers are a mixture of

-(-) end grows so slow that hydrolysis catches up

Answer 42

T (NTP) and D (NDP) form

Question 43

Affect microtubule growth and stability

Answer 43

Nucleotide at (+) end

Question 44

Stabilizes the (+) growing end of the microtubule

Answer 44

GTP-tubulin cap

Question 45

Destabilizes the microtubule resulting in rapid depolymerization

Answer 45

GDP-tubulin subunits at (+) end

Question 46

Lengthen or shorten as a function of time

-Catastrophe happens before rapid shortening

Answer 46

Individual microtubules

Question 47

Determine the state of actin and its dynamics

Answer 47

Actin binding proteins

Question 48

Actin binding proteins are targets of

Answer 48

Cell signaling cascades

Question 49

A monomer or filamentous poymer

-a building block

Answer 49

Actin

Question 50

Exist as singular units or are assembled into different structures by actin binding proteins

Answer 50

Filaments

Question 51

Actin filaments are dynamic and are ultimate targets in

Answer 51

Cell signaling pathways

Question 52

Important in vesicular and organelle transport

Answer 52

Tubulin and microtubules

Question 53

Form the mitotic spindle, cilia and flagella, centriole, and basal bodies

Answer 53

Microtubules

Question 54

Many cilia are motile, but most cells have a non-motile

-usually one per cell

Answer 54

Primary Cilium

Question 55

Central in developmental signaling pathways

-sensory organelles

Answer 55

Primary Cilium

Question 56

The only difference between the structure of motile cilia and the primary cilia is the primary cilum has no

Answer 56

Microtubule in the center

Question 57

The microtubule organizing center

-forms poles of mitotic spindle

Answer 57

Centrosome

Question 58

A consequence of the centrosome is that the (+) end of microtubules is located towards the

Answer 58

Cell periphery

Question 59

The centrosome is organized around a pair of

Answer 59

Centrioles

Question 60

Centrioles are surrounded by

Answer 60

Pericentriolar material

Question 61

Centrioles duplicate beginning in

Answer 61

S phase of mitosis

Question 62

Regulate state of microtubule assembly and stabilize or destabilize plus or minus end

Answer 62

Microtubule associated proteins (MAPs)

Question 63

Bind to the side of microtubules and stabilize by side binding or bundle formation

Answer 63

MAPs

Question 64

Can also sever microtubules

Answer 64

MAPs

Question 65

An example of a MAP that acts in Alzheimer’s disease in neurofibrillary tangles

-connets microtubules

Answer 65

Tau

Question 66

In order for the (+) end to reach the cell periphery, (+) tip proteins must inhibit

Answer 66

Catastrophes

Question 67

Bind to and track with the + end of a

growing microtubule

Answer 67

(+) tip proteins

Question 68

(+) end reaching the cell periphery allows for communication and connection with the cell cortex and interaction with the

Answer 68

Actin cytoskeleton

Question 69

Capture chromosomes during mitosis

-Associated with kinetochore

Answer 69

(+) end

Question 70

Can alter microtubule or actin polymerization

Answer 70

Natural toxins

Question 71

Binds and stabilizes actin filaments

-found in death angel mushroom

Answer 71

Phalloidin

Question 72

Depolimerizes microtubules

-From the autumn cross

Answer 72

Colchicine

Question 73

Binds and stabilizes microtubules

• from pacific yew tree
• widely used as anti-cancer drug

Answer 73

Taxol

Question 74

Widespread: seen during development, in chemotaxis, in tissue formation and repair, and in cancer metastasis

Answer 74

Cell migration

Question 75

Migration of neutrophils to infection sites

Answer 75

Chemotaxis

Question 76

What are the two ways to drive cellular movement?

Answer 76

1. ) motor driven

2. ) polymerization driven

Question 77

Can also be motor driven or polymerization driven

Answer 77

Intracellular transport

Question 78

Can usurp the cellular machinery

Answer 78

Pathogens

Question 79

An example of cellular motility is when a neutrophil chases a

Answer 79

Bacterium

Question 80

Found in the blood and protect the body from bacteria that enter through the skin

Answer 80

Neutrophils

Question 81

Neutrophils cahse bacteria by

Answer 81

Chemotaxis

Question 82

Mechanisms that involve actin polymerization at the leading edge and myosin dependent contractions of the tail

Answer 82

Chemotaxis

Question 83

Can drive cell migration by itself

Answer 83

Actin polymerization

Question 84

Can commandeer the cell’s actin polymerization machinery during infection

Answer 84

Certain bacteria

Question 85

How does actin polymerization alone provide the force for movement?

Answer 85

Elongation at the (+) end pushes against the membrane

Question 86

More actin filaments are nucleated, existing filaments are severed to create more barbed ends, and branches are formed in existing filaments to generate the

Answer 86

Actin polymerization required for movement

Question 87

Nucleates filaments from the sides of actin filaments,
making complex branched structures

-a complex of 7 proteins

Answer 87

Arp2/3

Question 88

What activates Arp2/3 to enable it to nucleate actin filaments?

Answer 88

Rho-dependent signaling cascade

Question 89

Dendritic (branched) actin filaments drive

Answer 89

Membrane protrusion

Question 90

Involved in neutrophil migration, wound healing, invasion of metastatic cancer cells, and clathrin-dependent endocytosis

Answer 90

Arp2/3-dependent polymerization

Question 91

Food born bacterium that infects intestinal epithelium and activates Arp2/3, which propels bacterium through cytoplasm

Answer 91

Listeria

Question 92

Contain ƴ-tubulin ring complex that nucleates the 13

protofilaments of microtubules and caps the - ends

Answer 92

Centrioles

Question 93

WASP/Scar binds to Arp2/3 complex and activates it. The complex then binds to existing filaments and makes a

-generates actin-polymerized movement

Answer 93

New filament growing out (branch)