Intracellular Architecture- Lecture 37

Question 1

What kinds of fillaments compose the cytoskeleton?

Answer 1

actin/microfilaments (smallest)
intermediate filaments
microtubules

Question 2

Describe IF assembly.

Answer 2

monomers (elongated, alpha helical with a globular N-terminus and C-terminal tail) combine to form dimers (coiled coil) which associate to form tetramer which associate with 7 other tetramers to form ropelike filaments

Question 3

What is the function of intermediate filaments?

Answer 3

maintaining structure of the cell

Question 4

What are the families of IF?

Answer 4

keratins
vimentins (desmins/fermentins)
nucleofilaments
nuclear lamins

Question 5

Provide an example of mutation affecting one of the families of IF.

Answer 5

epidermolysis bullosa simplex (mutation in keratin 14 adn 5) leads to blistering of skin as a function of mechanical stress

Question 6

What is the function of microtubules?

Answer 6

intracellular organization and transport

form mitotic spindle

Question 7

Describe the structure of microtubules.

Answer 7

grow from a tubulin dimer (one alpha and one beta, each bound to GTP) forming linear protofilament that grow out of centrosomes from minus end (which binds to structures composed of alpha tubulin)

Question 8

Describe the dynamic nature of microtubules.

Answer 8

dimers form linear protofilaments with beta subunit facing outward (intrinsic polarity which directs the association to the plus end), 13 of which combine to form a circular, stiff, hollow tube, as more subunits are added linearly, the inner beta subunits are hydrolized from GTP to GDP for stabilization

Question 9

How are microtubules used in mitosis?

Answer 9

MT grows out of a centrosome (microtubule organizing center) during interphase and become spindle pole bodies

Question 10

Microtubules grow and shrink in _____.

Answer 10

dynamic instability

Question 11

When are microtubules destabilized?

Answer 11

when GTP becomes hydrolized before new dimers bind

Question 12

Microtubules form _____ which can be used for _____.

Answer 12

tracks

transport of organelles from one end of a neuron to the other.

Question 13

What are the kinds of motor proteins that do the work on microtubules?

Answer 13

kinesin (plus end directed motors) or dynein (minus end directed motors)

Question 14

Describe the structure and movement of motor proteins across microtubule structures.

Answer 14

one domain binds the microtubules while the other binds cargo
microtubule binding ends have two heads that move processively to bind and release from microtubules in a walking motion

Question 15

What kinds of movement are possible across microtubules?

Answer 15

anterograde- towards plus end (movement by kinesin- as in synaptic vesicles and axonal growth materials)
retrograde- towards the minus end (movement by dynein- as in recycling of membranes to lysosome in cell body)

Question 16

What are cilia?

Answer 16

abundant projections from epithelial cells that move fluids along a surface in a wave-like fashion

Question 17

What are flagella?

Answer 17

singular, larger projections that are used to propel a cell forward (eg. sperm)

Question 18

The beating motion of cilia and flagella is dependent on _____.

Answer 18

specific arrangement of microtubules and the actions of kinesin and dyenin motor proteins

Question 19

____ induce slide of one microtubule against another microtubule in experimerns, however the _____ produces bending in azoneme.

Answer 19

Dyneins

linker proteins

Question 20

What are primary cilia?

Answer 20

sensory organs (contain receptors for smell as well as photoreceptors for light in rods and cones)
non-motile (because they lack central pair of MTs)
derived from centrioles left over after duplication
usually one per cell

Question 21

Provide an example of a disease resulting from a mutation resulting in loss of cilia function.

Answer 21

Polycystic kidney disease

Question 22

What are the different phases of the cell cycle?

Answer 22

G1, S, G2, M, and cytokinesis

Question 23

Describe the progression of cell division through the phases of cell cycle.

Answer 23

DNA replication —> chromosome condensation and separation (occurring during mitosis) –> separation of chromosomes into two daughter cells (via cytokinesis)

Question 24

During the phases of cell cycling, microtubules existing in the interphase cell become reorganized into _____ which is attached to the ____ which derive from the _____ by duplication.

Answer 24

mitotic spindle
centrioles
centrosome

Question 25

What are the three kinds of microtubules in the spindle?

Answer 25

kinetochore (bind directly to chromosomes at the centromeres)
overlap/polar (bind to each other overlapping fashion)
astral microtubules (bind to the cell surface)

Question 26

Describe the mechanism by which microtubules facilitate mitosis.

Answer 26

MTs are shrtened by dissasembly at both kinetochore and spindle ends
chromosomes are separated via motor proteins pushing and pulling the spindle to move the poles further apart and dynamic instability used to constantly shrink the kinetochore microtubules

Question 27

What is actin?

Answer 27

a monomer protein that polymerizes to form actin filaments (microfilaments)

Question 28

What is the function of actin?

Answer 28

form structural components of microvilli
found around the cell in cell cortex
form structural belt around cells (adherins)
form structures used to promote cell movement (eg. lamellipodia or filipodia)
promote endocytosis
form part of contractile ring in cell division

Question 29

Describe the structure of actin.

Answer 29

ATP bound proteins that polymerize into filaments with a helical arrangement
have polarity and add preferentially to the G-actin end (plus) with nucleotide facing minus end

Question 30

Explain the process of actin filament formation.

Answer 30

nucleation
elongation
steady state
these can occur at equal rates on plus and minus ends to produce a treadmilling action
once bound to plus end, ATP hydrolizes (filament contains mostly ADP) which has a weaker affinity for being in a filament and dissociates from minus end

Question 31

Provide examples of proteins that change actin filament stability.

Answer 31

CapZ stabilizes actin filaments (found in muscle fibers)
formins stimulate growth (found in stress fibers formed during cell movement)
Arp2/3 stimulates filament branching (occurs at leading edge of cells that are crawling)

Question 32

Describe the process of cell movement/crawling via actin.

Answer 32

cells attach to surfaces at local sites (focal adhesions) via integrins that bind to actin
once attached, cell is pushed forward via contractile bundles of actin in association with myosin (motor protein ) in the direction indicated by the leading edge (contain lamellipodium or filopodium)

Question 33

Provide an example of a non-human cell that uses human actin.

Answer 33

Lysteria monocytogenes (bacteria) hijacks actin machinery via ActaA, which recriuts actin and machinery that promotes actin branching and assembly resulting in comet tail that “shoots” the bacteria around

Question 34

Explain how actin can be controlled by cell signaling.

Answer 34

growth factors bind G-protein receptors which lead to actions of related small GTP binding proteins:
Rac (establishes leading edge)
Rho (stimulates movement via contractions)
Cdc42 (establishes cell polarity and direction of movement)

Question 35

How is skeletal muscle formed?

Answer 35

fusion of muscle cells to form myofibril (many repeating sarcomeres)

Question 36

What are sarcomeres?

Answer 36

resting muscle that can contract and shorten by 70%

Question 37

What kinds of filaments do sarcomeres have and how are they arranged?

Answer 37

thick (correspond to a polymerized form of the motor protein, myosin II)
thin (comprised of actin and actin binding proteins)
arranged with plus ends associated with Z-disks

Question 38

How do muscle cells contract?

Answer 38

action potential at neuromuscular junction –> release of CA2+ stores from sarcoplasmic reticulum
myosin II is arranged in a bipolar orientation with head groups on each half having opposite orientations, enabling motor heads to grab onto actin and slide it towards the center of sarcomere
non-processive
each only binds and releases once per cycle

Question 39

Provide examples of drugs that are used to modify microtubules.

Answer 39

taxon- inhibits deconstruction

colchicine- inhibits assembly (gout)

Question 40

Provide examples of drugs that are used to modify actin.

Answer 40

cytochalasin- inhibits assembly