BMS1060: Cell division/death

Question 1

What are the different phases of the cell cycle?

Answer 1

M phase - mitosis and cytokinesis

Interphase:
G1 phase - cell growth
S phase - DNA replication - chromatin proteins produced
G2 phase - cell growth

Question 2

Name the stages of the M phase.

Answer 2

Prophase
prometaphase
Metaphase
Anaphase
Telophase

Cytokinesis

Question 3

What is cohesin?

Answer 3

Cohesin is a protein complex that holds sister chromatids together. It is in the form of a ring - encircling the sister chromatids.

Cohesus disintegrates during metaphase to allow sister chromatids to separate and move to opposite poles of the cell in anaphase.

Question 4

What occurs in prophase?

Answer 4

Replicated chromosomes condense. Mitotic spindles assemble between the two centrosomes (outside nucleus).

Question 5

What occurs in prometaphase?

Answer 5

Breakdown of nuclear envelope. Chromosomes attach to spindle microtubules via kinetochores.

Question 6

What occurs in metaphase?

Answer 6

Chromosomes line up along the equator of the spindle. Kinetochore microtubules attach sister chromosomes to opposite poles of spindle.

Question 7

What occurs in anaphase?

Answer 7

Sister chromatids synchronously separate to from two daughter chromosomes - each pulled towards the spindle poles it faces.

Kinetochore microtubules get shorter, and the spindle poles also move apart.
Contributes to chromosome segregation.

Question 8

What occurs in telophase?

Answer 8

Two sets of daughter chromosomes arrive at the poles of the spindle and decondense.
New nuclear envelope reassembles around each set.
Division of cytoplasm begins.

Question 9

What occurs in cytokinesis?

Answer 9

Cytoplasm is divided by a contractile ring of actin and myosin filaments - producing 2 daughter cells (1 nucleus, 1 centrosome, share of all organelles)

DNA decondenses and cells return to resting interphase G1.

Question 10

What is included in the actin cytoskeleton? What does it do? What happens to it during mitosis?

Answer 10

Actin cytoskeleton -> Actin filaments, accessory and regulatory proteins.

Can produce protrusive and contractile forces - defining cell shape.

During mitosis, actin cytoskeleton is dismantled and rearranged.
At end of mitosis, actin rearranges - important in separating centrosomes in cytokinesis.

Question 11

Describe the structure of the spindle

Answer 11

Array of microtubules

Kinetochore microtubules attached to sister chromatids via kinetochores.

+ ends of kinetochore binds to large numbers of microtubules.

Question 12

The cell cycle is based on a series of _____ whcih initiate specific cell-cycle events.

What are the 3 major regulatory transitions they are involved with?

Answer 12

swtiches (on/off)

1) G1/S transition
2) G2/M transition
3) Metaphase/Anaphase transition

Question 13

What do Kinases do?

Answer 13

They catalze phosphorylation (ATP -> ADP + Pi)

Question 14

What are the main enzymes involved in the cell-cycle control system?

What binds to them to activate them?
What binds to them to inhibit them?

Answer 14

Cyclin-depenent kinases

Cyclins

Cdk inhibitor proteins

Question 15

When does cyclin-dependent kinase activity increase in the cell cycle?

Answer 15

At the G2/M transition -> increases phosphorylation of proteins that control events in early mitosis

Question 16

There are cyclic changes in concentration of _______ throughout the cell cycle, which result in different levels of ________ of cyclin-dependent kinases - causing the different _____ of the cell cycle.

Answer 16

Cyclin

Activation

Stages

Question 17

How is meiosis different to mitosis?

Answer 17

There are 2 successive rounds of chromosome separation (separating homologous pairs, then sister chromatids) in meiosis while only 1 round (separating chromatids) in mitosis.

Meoisis produces 4 haploid (1 copy of each chromosome) cells, while mitosis produced 2 diploid (2 copies) cells.

Meoisis has DNA cross-over to from recombinant DNA - increasing genetic diversity - while mitosis doesn’t.

Question 18

What are bivalent chromosomes?

What is the chiasma?

Answer 18

Chromosomes from male and females parents which line up to form exchange points (crossing over).

Chiasma = point of crossing-over

Question 19

Name the 5 stapes of meiotic prophase

Answer 19

Leptotene
Zygotene
Pachytene
Diplotene
Diakenesis

Question 20

What is histology?

Answer 20

The study of tissue and cells - by cutting,
staining and examining under a microscope.

Question 21

What is used to stain samples in histology?

Answer 21

H&E

Haematoxylin - basic dye that binds to acidic components (DNA and RNA)

Eosin - acidic dye that binds to basic components (proteins in cytoplasm).

Question 22

What are two types of epithelial tissue?

Answer 22

Epithelia - layers of cells covering internal and external surfaces

Glands - structures that produce secretions

Question 23

What are the functions of epithelial tissues?

Answer 23

1. Provide protection
2. Control permeability
3. Provide sensation
4. Absorb nutrients
5. Secretion
6. Transport (e.g. ciliated epithelia)

Question 24

What are the characteristics of epithelial tissue?

Answer 24

POLARITY- basal and apical surfaces

SPECIALISED CONTACTS - cell junctions, closely packed cells

ATTACHMENT - via basal lamina to underlying connective tissue.

AVASCULARITY - no blood vessel -> diffusion

REGENERATION - replacing lost cells via cell division from stem cells

Question 25

What do apical and basal surfaces come in contact with?

Answer 25

Apical - outside environment/internal cavity

Basal - basement membrane

Question 26

What benefit comes from epithelial tissues havin specialised contacts? Give examples of these contacts.

Answer 26

Increases strength and impermeability - makes cells hard to pull apart.

Question 27

What is the function of the Basal lamina and Reticular lamina? (both part of the basement membrane)

Answer 27

Basal Lamina - selective filter

Reticular Lamina - gives basement membrane its strength

Question 28

How do you classify Epithelial tissue?

Answer 28

Number of cell layers:
- simple (one)
- stratified (many)

Cell shape:
- Squamous (flat)
- Cuboidal (cube)
- Columnar (column)

Question 29

What is the function and location of the simple and stratified SQUAMOUS epithelium?

Answer 29

SIMPLE SQUAMOUS
- diffusion and filtration
- lung alveoli and capilaries

STRATIFIED SQUAMOUS
- protection
- lining esophagus, mouth and vagina. Kertinized type (contain keratin) in skin epidermis etc.

Question 30

What is the function and location of the simple and stratified CUBOIDAL epithelium?

Answer 30

SIMPLE CUBOIDAL
- secretion and absorption
- kidney tubules, ducts and secretory portions of small glands

STRATIFIED CUBOIDAL (generally two layers)
- secretion
- lumen of glands (e.g sweat glands)

Question 31

What is the function and location of the simple and stratified COLMNAR epithelium?

Answer 31

SIMPLE COLUMNAR
- absorption, secretion and movement (ciliated types)
- digestive tract, ducts of some glands, ciliated respiratory tract and uterous

STRATIFIED COLUMNAR (basal cells cuboidal and superficial cells columnar)
- protection and secreition
- large ducts of glands and urethra

Question 32

What are the two extra unusual classes of epithelial tissue?

Answer 32

PSEUDOSTRATIFIED COLUMNAR EPITHELIUM
- seems stratified columnal, but actuallt simple.
- secretes and moves (usually mucus)
- male reproductive tract and respiratory system

TRANSITIONAL EPITHELIUM
- suface cells dome shaped/flat. Basal cells cuboidal/columnar
- stretches to permit distension of bladder
- lines urinary bladder

Question 33

What do glands have a lot of?

Answer 33

ER, golgi apparatus and secretory granules.

Question 34

How are glands classified?

Answer 34

ENDOCRINE (hormones enter blood/lymphatic fluid) VS EXOCRINE (hormones secreted on skin or in body cavities/ducts)

Unicellular / multicelluar

Question 35

Describe the goblet cell - what kind of gland is it? Where is it found? What does it secrete?

Answer 35

Unicellular Exocrine Gland

Found in linings of digestive and respiritory tracts.

Secretes mucin which dissolves in water to form mucus.
Mucus protects (from microorganisms, digestive enzymes, dust particles etc) and lubricates sufraces.

Question 36

Describe multicellular exocrine glands.

Answer 36

Composed of duct and secretory unit.

Formed by invagintion of epithelium.

Connective tissue provides support and nutrients to glands.

Classified by mode of secretion.

Question 37

What are the 3 modes of secretion of exocrine glands?

Answer 37

MEROCRINE GLANDS - secrete by exocytosis

APOCRINE GLANDS - a portion of plasma membrane buds off cell containing secretion.

HOLOCRINE GLANDS - entire cell disintegrates to secrete product.

Question 38

Why is cell death important?

Any cons?

Answer 38

It maintains tissue homeostasis and eliminates harmful cells.

Homeostasis -> Balance between cell growth, division and death

Cons:
- Killing wrong cells (e.g. neurodegeneration)
- Failing to kill cells generated in excess (cancer)

Question 39

What are the 2 main types of cell death?

Briefly describe them

Answer 39

Necrosis and Apoptosis

NECROSIS - accidental cell death
Cells swell and burst. Contents released -> inflammation.

APOPTOSIS - Programmed cell death.
Cells engulfed and digested.
Energy (ATP) dependent.

Question 40

What are the 3 other types of cell death?

Answer 40

AUTHOPHAGY - degradation of unneccesary/dysfunctional cellular components.

FERROPTOSIS - triggered by accumulation of lethal ROS in cells.

NECROPTOSIC - form of necrosis - triggered by viral loads.

Question 41

What is the role of apoptosis?

Answer 41

For tissue structure (e.g. hands and feet development)

When structure is no longer needed (tadpole -> frog)

Quality control - eliminating abnormal cells

Destroying cells that are threats to an organism.

Question 42

Describe the process of Apoptosis

Answer 42

1. Stimulus - > cell shrinks, chromatin condenses.
2. Membrane starts blebbing. Organelles disintegrate.
3. Nucleus and organelles collapse. Membrane continues to bleb.
4. Apoptotic bodies form.
5. Macrophages phagocytose apoptotic bodies.

Question 43

What are Caspases?

Answer 43

Proteases that cleave specific intracellular proteins at specific AA sequences.

THey have cystein at active sit and cleave target proteins at specific aspartic acids.

Not all caspases are involved in Apoptosis (11 different caspases)