Chapter 3 and Lab 3: Cellular Form and Function

Question 1

What is cell theory?

Answer 1

1. all organisms are comprised of cells and cell products
2. cell is the simplest structural and functional unit of life
3. all oranism’s structure and functions are due to the activities of cells
4. cells only come from preexisting cells
5. cells of all species exhibit biochemical similarities

Question 2

What are the basic components of a cell and their properties?

Answer 2

cell membrane

• surrounds cell, defines boundaries
• made of proteins and lipids

nucleus

cytoplasm

• organelles
• cytoskeleton
• inclusions (stored or foreign particles)
• cytosol (intracellular fluid, ICF)

Question 3

What are organelles?

Answer 3

Internal structures of a cell that carry out specialized metabolic tasks.

Question 4

What are the functions of the plasma membrane?

Answer 4

It is the border of the cell (bilayer). It defines cell boundaries, governs interactions with other cells, and controls the passage of materials in and out of the cell.

Question 5

What are the membrane lipids?

Answer 5

98% of membrane molecules are lipids

• phospholipids (75%)
• cholestrol (20%)-hold phospholipids still and can stiffen membrane
• glycolipids (5%)

Question 6

What are the membrane proteins?

Answer 6

These make up 2% of cell membrane molecules but 50% of the weight

• integral proteins: penetrate membrane
  
  • have hydrophilic and hydrophobic regions
  • some drift in membrane, others are anchored to cytoskeleton
• peripheral proteins: on the surface of membrane
  
  • adhere to one face of membrane
  • usually stuck to cytoskeleton and an integral protein

Question 7

What are the functions of membrane proteins?

Answer 7

1. Receptors (receptor to hormone, lock and key fit)
2. second messenger systems
3. enzymes
4. channel proteins (things go in and out of cell)(hydrophilic solutes need these)
5. Carriers (pumps do active transport-e.g. Na/K pump)
6. cell identity markers (non-foreign, identify structure)
7. cell adhesion molecules (link cell to other cells)

Question 8

What are the types of channel proteins?

Answer 8

• Some are open, some are gated
• crucial to nerve and muscle function
• ligand gated
  
  • respond to chemical messengers
  • (e.g. neurotransmitter)
• voltgate gated
  
  • respond to charge changes
  • (e.g. muscle cells contracting, nerve cells for communication)
• mechanically gated
  
  • respond to physical stress on cell

Question 9

What is the glycocalyx and its functions?

Answer 9

• Fuzzy coat external to plasma membrane
  
  • Made of glycoproteins and glycolipids
• protection, immunity to infection, defense against cancer, transplant compatibility, cell adhesion, fertilization, embryonic development

Question 10

What are microvilli, cilia, and flagella?

Answer 10

• microvilli
  
  • extensions of membrane (15 to 40x more surface area)
  • developed for absorption
  • known as brush border
• cilia
  
  • hairlike
  • single, nonmotile primary cilium found in nearly every cell (like antenna)
  • motile/nonmotile (moving or nonmoving)
    
    • motile: respiratory tract, uterine tubes, ventricles of brain, ducts of testes
      
      • beat material along (power and recovery strokes)
    • nonmotile: sensory cells of nose
• flagella
  
  • tail of sperm only one in humans
  • whip-like structure
  • movement is snakelike (no power and recovery)

Question 11

How do cilia beat in a saline layer?

Answer 11

• Chloride pumps Cl- into ECF
• Na+ and H2O follow
• Forms a saline layer
• Mucus floats on top of the layer
• Cilia beat the mucus along
• Cystic fibrosis is when the Cl- pump doesn’t work so H2O does not thin mucus (respiratory and pancreatic duct issues)

Question 12

What are pseudopods?

Answer 12

Continually changing extensions of the cell that vary in shape and size. (Can be used for cellular locomotion, capturing foreign particles)

Question 13

What are the types of membrane transport?

Answer 13

• Passive mechanisms (require no ATP)
  
  • filtration
  • simple diffusion
  • facilitated diffusion
  • osmosis
• Active mechanisms (consume ATP)
  
  • Primary active transport
• Carrier mediated: use a membrane protein to transport substances across membrane (can be passive or active)
  
  • facilitaton diffusion
  • primary active transport
  • vesicular transport

Question 14

What is filtration?

Answer 14

Particles are drive through a membrane by physical pressure. E.g. capillaries (mostly blood pressure)

Question 15

What is simple diffusion and what are the factors that affect it?

Answer 15

The substances pass directly through the phospholipid bilayer.

Affecting factors: temperature (heat is faster), molecular weight (lighter faster), steepness of concentration gradient (steeper faster), membrane surface area (larger faster), membrane permeability

Question 16

What is osmosis?

Answer 16

• the diffusion of water through a selectively permeable membrane
  
  • Water moves from where it is more concentrated to where it is less concentrated
  • solute particles that cannot pass through the membrane “draw” water from the other side
  • Must have membrane, and solutes don’t move

Question 17

What are some clinical applications of osmosis?

Answer 17

• Crucial for IV fluids (0.9% is isotonic to blood plasma)
• Osmotic imbalances underlie diarrhea, conspitation, and edema
• Osmosis is enhanced by aquaporins, channel proteins in membrane specialized for water passage

Question 18

What is osmolarity?

Answer 18

The measure of total concentration of solute particle.

Question 19

What is tonicity?

Answer 19

The ability of a surrounding solution to affect fluid volume and pressure in a cell. (remember tonicity is relative)

Question 20

What are the 3 mechanisms of carrier mediated transport?

Answer 20

• Uniport: carries one type of solute (e.g. calcium pump)
• symport–carries two or more solutes simultaneously in the same direction (cotransport) (e.g. sodium-glucose transporters)
• antiport–carries two or more solutes in opposite directions (countertransport) (e.g. Sodium/potassium pump)

Question 21

What are the three mechanisms of carrier mediated transport?

Answer 21

1. Facilitated diffusion
   * carries moves solute down its concentration gradient, does not require ATP
2. Primary active transport

• carrier moves a solute through a membrane up (against) its concentration gradient (requires ATP)
• e.g. Sodium/Potassium pump, Calcium pump

3. Secondary active transport

Question 22

What is the structure and function of the Sodium Potassium Pump?

Answer 22

• pumps 3 Na out and 2 K in
• Keeps K concentration higher and Na lower than in the ECF
• necessary because Na and K constantly leak through membrane
• regulates cell volume
• produces heat
• Half of daily calories used on this pump

Question 23

What is vesicular transport and its types?

Answer 23

• moves large particles, fluid droplets, or numerous molecules at once through the membrane in vesicles
• endocytosis: transport into cell
• exocytosis: transport out of cell
• trafficking: transport from one area or organelle to another
• transcytosis: transport into and out of the cell

Question 24

What are the types of endocytosis?

Answer 24

• Phagocytosis: “cell eating,” used by white blood cells, forms a phagosome
• Pinocytosis: “cell drinking,” bring in fluid, used by all human cells
• Receptor mediated: more selective, enables cells to take in specific molecules to bind to extracellular receptors

Question 25

What are the functions of exocytosis?

Answer 25

• ejection of wastes
• release of neurotransmitters
• hormone secretion
• mucus secretion

Question 26

What are the membranous/nonmembranous organelles?

Answer 26

• membranous: nucleus, mitochondria, lysosomes, peroxisosomes, endoplasmic reticulum, and Golgi complex
• non-membranous: ribosomes, centrosomes, centrioles, basal bodies

Question 27

What is the function of the cytoskeleton?

Answer 27

• network of protein filaments and cylinders
• Microfilaments maintain shape and microvilli
• Intermediate fibers anchor organelles
• Microtubules move organelles and make centrioles

Question 28

What is the function of the nucleus?

Answer 28

• genetic control center (shelters DNA)
• makes proteins

Question 29

What is the function of the Rough ER and the Smooth ER?

Answer 29

Rough ER: make proteins

Smooth ER: make lipids, detoxification, calcium storage

Question 30

What is the function of the ribosome?

Answer 30

interpret genetic code and make polypeptides

Question 31

What is the function of the Golgi Complex?

Answer 31

• receives and modifies and packages proteins
• makes carbs
• packages products into vesicles

Question 32

What is the function of the lysosome?

Answer 32

contains enzymes for digestion, autophagy (recycling organelles), cell death, and glucose mobilization

Question 33

What is the function of the peroxisome?

Answer 33

contains enzyme for detoxification of free radicals and drugs

Question 34

What is the function of a mitochondria?

Answer 34

ATP synthesis

Question 35

What is the function of a centriole?

Answer 35

forms microtubules of cytoskeleton and mitotic spindle

Question 36

What are inclusions?

Answer 36

storage products (glycogen, fat droplets) and foreign matter (viruses, bacteria, dust particles)

Question 37

What is the difference between cytoplasm and cytosol?

Answer 37

Cytoplasm includes organelles. Cytosol is ICF only.

Question 38

What are the components of the plasma membrane?

Answer 38

• intracellular and extracellular face
• membrane lipids
  
  • phospholipid bilayer
  • cholesterol
  • glycolipids
• membrane proteins
  
  • integral proteins
  • transmembrane proteins
• Glycocalyx
• Microvilli, Cilia, Flagella
• Pseudopods

Question 39

What is the difference between simple and facilitated diffusion?

Answer 39

Facilitated used a carrier / channel protein.

Question 41

Define permeability, passive transport, and active transport

Answer 41

• Permeability: a membrane is selectively permeable, meaning it has standards and will only let some substances in
• Passive transport: involves substances moving down the gradient, requires no energy
• Active transport: substances move against the gradient, require ATP