CB19: Cell Cytoskeleton

Question 1

What is the cytoskeleton ?

Answer 1

A network of protein filaments that extend throughout the cytoplasm to support its large volume and give the cell its shape.

Question 2

What do GTP & GDP stand for ?

Answer 2

GTP: Guanosine triphosphate
GDP: guanosine diphosphate

Question 3

What filaments/tubules help to maintain cell shape?

Answer 3

Intermediate filaments

Question 4

What filaments/tubules help the cell to interact with its environment?

Answer 4

Intermediate filaments & microtubules

Question 5

What filaments/tubules are used for movement?

Answer 5

Microtubules & actin.

Question 6

How stable are actin filaments, intermediate filaments & microtubules?

Answer 6

Actin filaments: unstable
Intermediate filaments: stable
Microtubules: unstable

Question 7

What is the diameter of actin filaments, intermediate filaments & microtubules?

Answer 7

Actin filaments: small
Intermediate filaments: moderate
Microtubules: large

Question 8

What are actin filaments, intermediate filaments & microtubules composed of?

Answer 8

Actin filaments: identical globular actin molecules
Intermediate filaments: keratin, vimentin, neurofilaments & nuclear lamina
Microtubules: tubulin

Question 9

What is the structure of actin?

Answer 9

A thin double-stranded polymer made of identical globular actin molecules, with + & - ends.

Question 10

What is the structure of intermediate filaments?

Answer 10

Long & rope-like

Question 11

What is the structure of microtubules?

Answer 11

A MT is a long, straight & hollow cylinders composed of 13 protofilaments. Each protofilament is composed of tubulin heterodimers stacked on each other by non-covalent bonds.

Question 12

How are actin filaments polymerised & depolymerised?

Answer 12

Polymerisation by the addition of actin monomers bound to ATP at either end (faster at + end).
Depolymerisation occurs when ATP is hydrolysed to ADP as the structure becomes more loosely packed & disassembly is promoted.

Question 13

What molecule inhibits polymerisation of actin filaments?

Answer 13

Cytochalasins

Question 14

How is the stability of actin increased?

Answer 14

Using phalloidin.

Question 15

How are intermediate filaments polymerised & depolymerised?

Answer 15

Polymerisation:
- 2 alpha-helix monomers bind to form a coiled-coil dimer.
- 2 coiled-coil dimers bind to form 1 staggered tetramer.
- 2 staggered tetramers get tied together & 8 staggered tetramer form 1 IF.
Depolymerisation doesn’t really occur.

Question 16

How are microtubules polymerised & depolymerised?

Answer 16

Polymerisation is by the addition of tubulin bound to GTP to + end of MT. MT grow from a centrosome.
Depolymerisation occurs if GTP is hydrolysed to GDP as the structure becomes more loosely bound.

Question 17

What is the role of the centrosome?

Answer 17

It controls the number, location & orientation of growing MT.

Question 18

What is the gamma tubulin?

Answer 18

It’s the nucleation site, where the new MT grows from.

Question 19

What are the characteristics of actin filaments?

Answer 19

• Flexible to form small contractile bundles in cytoplasm & contractile rings during cytokinesis.
• Rigid & stiff to form permanent structures (microvilli).
• Can be associated with motor proteins (myosin filaments) to take part in muscular contraction.

Question 20

What are the characteristics of intermediate filaments?

Answer 20

• Strong & rope-like to provide high tensile strength which helps the cell to maintain its shape by withstanding mechanical stresses.
• Forms a network throughout the cell & anchors to plasma membrane at desmosomes to prevent cell rupture.
• Form cross-links with accessory proteins to interact with other structures.

Question 21

What are the characteristics of microtubules?

Answer 21

• Rigid + can (dis)assembled rapidly to create a system of tracks that can move vesicles & organelles around cell rapidly.
• Serves as a guide for intracellular transport + an anchor for membrane-bound organelles.

Question 22

How is actin used for movement?

Answer 22

• used in muscle contractions & contractile bundles.
• Actin is associated with myosin.
• Actin & myosin contract, which shortens the sarcomere.

Question 23

What are the two types of sarcomeres and where are they found?

Answer 23

• Myosin I is found in all cells.
• Myosin II is found in muscle cells.

Question 24

How does myosin move?

Answer 24

The myosin head hydrolyses ATP & moves towards the + end in a cycle of binding, detaching & rebinding.

Question 25

How are microtubules used for intracellular transport?

Answer 25

They use motor proteins kinesin & dynein. Hydrolysis of ATP provides energy for the motor proteins to move.

Question 26

In what direction does dynein move?

Answer 26

Towards the - end of the MT

Question 27

In what direction does kinesin move?

Answer 27

Towards the + end of the MT

Question 28

What is the structure of kinesin & dynein?

Answer 28

They are dimers with a globular ATP binding head. The tail binds to the molecules they are carrying.

Question 29

What is the role of microtubules in cillia & flagella?

Answer 29

Cillia & flagella have MT. Dynein moves the MT.