*Physiology 1 (lectures 1, 2 + 3)

Question 1

Tissue?

Answer 1

Group of cells with similar structure and specialise function

Question 2

Organs?

Answer 2

2 or more types of primary tissues that function together to perform a particular function(s)

Question 3

Body systems?

Answer 3

groups of organs that perform related functions and work together to achieve a common goal(s)

Question 4

Homeostasis

Answer 4

Stable internal environment (maintenance of steady states within our bodies by co-ordinated physiological mechanisms)

Question 5

In order to maintain homeostasis, what just a control system do?

Answer 5

Sense deviations from normal
Integrate this info. with other relevant info.
Make appropriate adjustments in order to restore a controlled variable to its desired value

Question 6

2 classes of control systems and explanation

Answer 6

Intrinsic control (local controls that are inherent in an organ)
Extrinsic controls (regulatory mechanism initiated outside an organ - this is accomplished by nervous and endocrine systems)

Question 7

Feedforward?

Feedback?

Answer 7

Feedforward - responses made in anticipation of a change - usually act in combination with negative feedback)
Feedback - response made after a change has been detected

Question 8

Negative feedback?

Positive feedback?

Answer 8

Negative - opposes initial change

Positive - amplifies initial change

Question 9

Components of a negative feedback system

Answer 9

Sensor, control centre (compared sensor’s input with a set point), effectors

Question 10

Example of positive feedback

Answer 10

Uterine contractions during labour become increasingly stronger until birth of baby

Question 11

What are the major components of a cell membrane? (3)

Answer 11

Mostly lipids (phospholipids and cholesterol) and proteins (plus small amounts of carbohydrates)

Question 12

How do you describe the appearance of the plasma membrane through an electron microscope?

Answer 12

Trilaminar

Question 13

What are the 2 main parts of a phospholipid? Charged? hydrophilic or hydrophobic?

Answer 13

Head (negatively charged, polar, hydrophilic)

Tail (uncharged, nonpolar, hydrophobic)

Question 14

What makes up the lipid bilayer of the cell membrane?

Answer 14

Phospholipids

Question 15

The lipid bilayer is rigid. True or false?

Answer 15

False - it is fluid

Question 16

What is the purpose of having cholesterol interspersed in the phospholipid bilayer?

Answer 16

To prevent the phospholipids sticking together (contributes to the fluidity and stability of the membrane)

Question 17

What word describes proteins embedded in the lipid e.g. receptors?

Answer 17

Integral proteins

Question 18

What word described proteins that extend through the membrane e.g. transporters, channels?

Answer 18

Transmembrane proteins

Question 19

What word describes proteins that do not penetrate the membrane (most commonly intracellular) e.g. receptor-associated enzymes?

Answer 19

Peripheral proteins

Question 20

What are short carbohydrate chains found on the membrane often bound to?
What is the name for the layer formed by the membrane carbohydrates which coat the surface of the cell (“the sugar coating”)?

Answer 20

Usually membrane proteins (glycoproteins) and to a lesser extent lipids (glycolipids)
Glycocalyx

Question 21

What are the 3 important functions of the lipid bilayer?

Answer 21

It forms the basic structure of the membrane
Its hydrophobic interior serves as a barrier
It is responsible for the fluidity of the membrane (enables the cell to change shape)

Question 22

What type of membrane proteins are located on the inner membrane surface and interact with secretariat vesicles leading to exocytosis of the vesicle contents?

Answer 22

Docking-marker acceptors

Question 23

What is an example of a cell adhesion molecule that helps hold cells within tissue together?

Answer 23

Cadherins

Question 24

What do the short carbohydrate chains on the outer surface act as?

Answer 24

Self-identity markers that enable cells to identify and interact with one another

Question 25

Role of carbohydrate chains on cell surface in tissue growth?

Answer 25

Makes sure cells do not overgrow their own territory

Question 26

What are the 3 types of specialised cell junctions?

Answer 26

Desmosomes
Tight junctions
Gap junctions

Question 27

What are desmosomes?

Answer 27

Adhering junctions that anchor cells together, especially in tissues subject to stretching e.g. skin

Question 28

What are tight junctions?

Answer 28

Join the lateral edges of epithelial cells near their lumens (apical) membranes (tight or leaky)

Question 29

What are gap junctions?

Answer 29

Communicating junctions that allow the movement of charge carrying ions and small molecules between 2 adjacent cells

Question 30

Is the plasma membrane permeable?

Answer 30

Selectively permeable

Question 31

What 2 properties influence whether a particles can permeate the plasma membrane without assistance?

Answer 31

Solubility of the particle in lipid

Size of the particle

Question 32

What 2 driving forces can cause something to move across a membrane?

Answer 32

Passive

Active (requires ATP)

Question 33

What 2 forces drive molecules and ions that can diffuse across the membrane?

Answer 33

Diffusion down a concentration gradient, and/or

Movement along an electrical gradient

Question 34

What is Fick’s law of diffusion?

Answer 34

In addition to concentration gradient, the following factors influence rate of net diffusion:
The magnitude of the concentration gradient
The surface area of the membrane across which diffusion is taking place
The lipid solubility of the substance
The molecular weight of the substance
The distance through which diffusion must take place

Question 35

In addition to concentration gradient, what is ion movement also affected by?

Answer 35

Electrical charge e.g. cations tend to move towards more negatively charged areas

Question 36

What is osmosis?

Answer 36

The net diffusion of water down its own concentration gradient

Question 37

Why can water molecules pass through/ permeate the plasma membrane more readily than would be expected from solubility in lipid?

Answer 37

Due to aquaporins (water channels)

Question 38

What is osmolarity?

Answer 38

the concentration of osmotically active particles present in a solution

Question 39

What are the units of osmolarity?

Answer 39

Osmoles/ litre (Osm)

Question 40

What is the approximate osmolarity of body fluids?

Answer 40

Approx. 300 mOsm

Question 41

What is tonicity?

Answer 41

The effect a solution has on cell volume

Question 42

What are the units of tonicity?

Answer 42

No units

Question 43

Isotonic?

Answer 43

Doesn’t change cell volume

Question 44

Hypotonic?

Answer 44

Increase in cell volume

Question 45

Hypertonic?

Answer 45

Decrease in cell volume

Question 46

What happens in substance mediated transport?

Answer 46

Substance binds onto a specific carrier which undergoes a conformational change which transports the substance

Question 47

What important characteristics determine the kind and amount of material transferred across the membrane?

Answer 47

Specificity - each carrier is specialised to transport a specific substance or a few closely related chemical compounds
Saturation (transport maximum, Tm)
Competition

Question 48

What are the 2 forms of carrier-mediated transport?

Answer 48

Facilitated diffusion (Not requiring energy) - transfer downhill
Active transport (requiring energy)- transfer uphill

Question 49

What are the 2 forms of active transport?

Answer 49

Primary active transport

Secondary active transport

Question 50

What is primary active transport?

Answer 50

Energy is directly required to move a substance across its concentration gradient

Question 51

What is secondary active transport?

Answer 51

The transfer of a solute across the membrane is always coupled with the transfer of the ion that supplies the driving force (typically Na+) - energy source comes from another reaction

Question 52

Is the Na+K+ATPase involved in primary or secondary active transport?

Answer 52

Primary

Question 53

What does the Na+K+ATPase do?

Answer 53

Transports 3 X Na+ out of the cell for every 2 X K+ in

Question 54

What are the 3 important roles of the Na+K+ pump?

Answer 54

Helps establish Na+ and K+ concentration gradients across the plasma membrane of all cells
Helps regulate cell volume by controlling concentration of solutes inside the cell
The energy used to drive the pump indirectly serves as the energy source for secondary active transport

Question 55

What are the mechanisms by which secondary active transport can occur?

Answer 55

Symport (co-transport)

Antiport (exchange or countertransport)

Question 56

What is symport (co-transport)?

Answer 56

The solute and Na+ move in the same direction e.g. glucose absorption at the apical membrane of enterocytes

Question 57

What is antiport?

Answer 57

The solute and Na+ move in opposite directions (Na+ into, solute out of the cell)

Question 58

Is vesicular tranport passive or active?

Answer 58

Always active as requires energy for vesicle formation and movement within the cell