Bio2Final

Question 1

Epidermis

Answer 1

The surface layer of skin, overlays the dermis

o Contains:

• Keratinocytes – epidermal cell that produces keratin
• Intermediate filaments linked to cell junctions in keratinocytes provide a great deal of structural support to the skin
• Defects in intermediate filaments in the skin (keratin) make the skin less resistant to physical stress= epidermolysis bullosa
• Melanocytes – melanin forming cell
• Pigment cell

Question 2

Basal Lamina

Answer 2

Layer of extra cellular matrix secreted by epithelial cells

ECM- to cell~ epidermis cell connects to basal lamina by hemidesmosome junction

Question 3

Dermis

Answer 3

Thick layer of tissue below the dermis

o Contains:

• Arteries
• Sweat glands
• Nerve vein

Question 4

Cytoskeleton

Answer 4

complex network of interlinking filaments and tubules that extend throughout the cytoplasm.

Question 5

Microtubules

Answer 5

A hollow tube formed from tubulin dimers

• Alpha tubulin and beta tubulin = dimer

o Cell movement by cilia and flagella

o Cell division (chromosome segregation)

o Vesicle transport

o Organelle arrangement

o Make up the spindles of the centrosome (mitosis, meiosis)

o Dynamic ~ ability to grow

• Plus, end assembles quickly
• Addition of subunits is quicker than the removal so its growing faster
• Minus end assembles slowly
• The rate of addition and subtraction of subunits is the same so it is growing slower than the plus end

Dynamic instability

• Switching between growing (polymerization) and shrinking (depolymerizing) states
• Polymerization- adding of subunits/monomers
• Depolymerization- removal of subunits/monomers

o Motor Protein

• Kinesin
• • end
• Dynein
• • end
• Involved in cilia and flagellar movement

o Cilia in paramecium, epithelium cells

o Flagella in unicellular algae and sperm

• Experiment: In the dark, melanin granules are dispersed outward by kinesin, causing the embryo to be darkly colored. In the light, melanin granules are aggregated toward the center by dynein, causing the embryo to be lightly colored.

Question 6

Microfilament

Answer 6

A microfilament is a double helix of actin monomers

o Cell movement by crawling and vesicle transport

o Muscle contraction

o Cell division- Actin contractile ring (cytokinesis in animal cells)

o Bands of microfilaments span the circumference of the cell

o Make up microvilli (in intestinal cells, helps with absorption)

o Dynamic

• Plus, end assembles quickly
• Minus end assembles slowly

o Motor Protein

• Myosin
• Microfilament + Myosin = muscle contraction

Question 7

Intermediate Filament

Answer 7

An intermediate filament is a strong fiber composed of intermediate filament proteins

o Cell shape and support

o Intermediate filament subunits

• Epithelial cells- keratins
• Fibroblasts- vimentins
• Neurons- neurofilaments
• Inside the nucleus- lamins

o Lamin vs laminin

• Lamin is intermediate filament and lamaninin is an extra cellular matrix protein.
• DO NOT CONFUSE THEM

o Intermediate filaments linked to cell junctions in keratinocytes provide a great deal of structural support to the skin

o Defects in intermediate filaments in the skin (keratin) make the skin less resistant to physical stress= epidermolysis bullosa

Question 8

Sponge Experiment

Answer 8

Sponges of different species broken up into individual cells. Individual cells from both sponges were swirled together. The cells from each sponge sorted themselves out.

• Due to differing cell adhesion molecules on the surface of the sponge cells

Question 9

Embryo Experiment

Answer 9

Tissues were broken up into individual cells. Individual cells from both tissues were mixed together. The cells from each tissue sorted themselves out and adhered to form new tissue.

• Also due to cell adhesion molecules

Question 10

Cell Adhesion molecules: CAMS

Answer 10

Proteins located on the surface of cells involved in binding with other cells or with the extracellular matrix

o Cadherins

• Cell to cell

o Integrins

• Cell to extra cellular matrix

Question 11

Adherens

Answer 11

CAM- cadherin

• Cytoskeleton attachment= microfilament
• Primary function= cell-cell adhesion (anchoring)

Question 12

Desmosome

Answer 12

CAM-cadherin

• Cytoskeleton attachment- intermediate filaments
• Primary function- cell-cell adhesion (anchoring)

Question 13

Hemidesmosome

Answer 13

CAM= integrin

• Cytoskeleton attachment- intermediate filaments
• Primary function- Cell-ECM adhesion (anchoring)
• Example: cell to basal lamina

Question 14

Tight Junction

Answer 14

Claudin, occludins

• Primary function-epithelial boundary (barrier)
• Barrier to the passage of molecules between cells

Question 15

Gap junction

Answer 15

Connexins

• Primary function-communication between animal cells
• Allows molecules to pass from one cell to another
• Animal cells

Question 16

Plasmodesmata

Answer 16

Cell membrane

• Primary function: Communication between plant cells
• Only in plant cells
• Plant cell equivalent to gap junction

Question 17

Extra Cellular Matrix

• Animal

Answer 17

Major component is collagen

o Secreted by cells in a mixture of proteins and polysaccharides

o Composed of large fibrous proteins

• Collagen
• Elastin
• Laminin

o Cells in connective tissues of animals reside in complex meshwork of extracellular matrix fibers

Question 18

Extra Cellular Matrix

Plant

Answer 18

o Layers of cell wall – in plants the extracellular matrix is the cell wall

• Middle lamella:
• Made of carbohydrates
• Main mechanism by which plant cells adhere to one another
  2. Primary cell wall
• Made of cellulose fibers, pectin, and several other proteins
• Thin and flexible
  3. Secondary cell wall
• Made of cellulose and lignin
• Rigid
• Lignin is the substance that hardens the cell wall and makes it water resistant.

Question 19

Binary Fission

Answer 19

Asexual reproduction common to bacteria

• Daughter cell is identical to parent
• Bi-directional synthesis

Question 20

G1

Answer 20

Interphase:
the first growth period of the cell cycle, during interphase, in which the cell grows and cytoplasmic organelles are replicated. Many regulatory proteins are made and activated at this stage .

Question 21

S phase

Answer 21

DNA synthesis (entire DNA in nucleus replicated)

• Period of cell cycle prior to mitosis, during which the chromosomes are replicated

Question 22

G2 Phase

Answer 22

The second growth period of cell cycle, following DNA replication and preceding prophase of mitosis. During which the cell forms the materials that make up the spindle.

Question 23

G0 Phase

Answer 23

Period where cell is neither dividing or preparing to divide

Ex. Neurons, liver cells, lens of eye

Question 24

M Phase

Answer 24

Mitosis and cytokinesis

Question 25

Sister chromatid:

Answer 25

two identical copies formed by the replication of a single chromosome, joined together at centromere Made after S phase

Question 26

Homologous chromosomes

Answer 26

two chromosomes, one paternal, one maternal, that are identical in appearance * Non sister chromosomes

Question 27

Centromere

Answer 27

region of chromosome to which the microtubules of the spindle attach during cell division

Question 28

Kinetochore

Answer 28

proteins associated with the centromere of a chromosome during cell division where the microtubules of the spindle attach

Question 29

Centrosome

Answer 29

organelle where microtubules are organized, regulates cell division * Mitotic spindles are made up of microtubules, attach to centromere (kinetochore) during cell division and pull sister chromatids apart through shortening of the microtubule. (dynamic)

Question 30

Prophase

Answer 30

Mitosis 1. chromosomes condense. - Centrosomes radiate microtubules and migrate to opposite poles.

Question 31

Prometaphase

Answer 31

Mitosis 2 Microtubules of the mitotic spindle attach to chromosomes - nuclear envelope starts to break down

Question 32

Metaphase:

Answer 32

3 | Chromosomes align in the center of cell

Question 33

Anaphase

Answer 33

4 | Sister chromatids separate to travel to opposite poles

Question 34

Telophase

Answer 34

5 Nuclear envelope re-forms and chromosomes de-condense * Last stage of mitosis

Question 35

Mitosis

Answer 35

results in 2 daughter cells, identical to the parent.

Question 36

Cytokinesis

Answer 36

division of cell cytoplasm * Animal o Actin contractile ring * Plant o Cell plate

Question 37

Meiosis

Answer 37

ype of cell division that results in four daughter cells each with half the number of chromosomes of the parent cell * Seen in sex cells (gametes, germ cells) not somatic cells o Sperm cytoplasm divided evenly, produces 4 sperm cells o Unequal division of cytoplasm in female sex cells, produces 1 oocyte (egg) and 3 nurse cells (polar bodies) * Two divisions Meiosis I and Meiosis II

Question 38

Prophase I

Answer 38

Chromosomes first become visible * Homologous chromosomes condense and undergo synapsis (gene for gene pairing) * When synapsis is complete each pair of homologous chromosomes form a bivalent, each chromosome consists of two sister chromatids chromosomes continue to shorten and thicken and the chiasmata between non-sister chromatids become apparent * The nuclear envelope begins to break down

Question 39

Synapsis

Answer 39

fusion of chromosome pairs at the start of meiosis/ gene for gene pairing

Question 40

Crossing over

Answer 40

homologous chromosomes pair up and exchange genetic material to form recombinant chromosomes

Question 41

Chiasma

Answer 41

point where genetic exchange occurs between non sister chromatids

Question 42

Prometaphase I

Answer 42

Spindles attach to kinetochores on chromosomes

Question 43

Metaphase I:

Answer 43

Homologous pairs line up in center of the cell with bivalents oriented randomly with respect to each other

Question 44

Anaphase I

Answer 44

Homologous chromosomes separate but sister chromatids do not separate

Question 45

Telophase I:

Answer 45

Daughter cells are ready to move into prophase II

Question 46

Prophase II

Answer 46

Nuclear envelope breaks down and chromosomes condense

Question 47

Prometaphase II

Answer 47

Spindles attach to kinetochores on chromosomes

Question 48

Metaphase II

Answer 48

Chromosomes align in center of the cell

Question 49

Anaphase II

Answer 49

Sister chromatids separate

Question 50

Telophase II

Answer 50

Nuclear envelope reforms