Cell Membrane, Membrane Transport and Membrane Potential

Question 1

structural proteins form

Answer 1

cell to cell attachments that hold adjacent epithelial cells together

Question 2

structural proteins sometimes anchors

Answer 2

cells to ECM

Question 3

tight junctions

Answer 3

prevents intercellular movement of fluid and dissolved substances

Question 4

desmosomes

Answer 4

structural support

Question 5

gap junctions

Answer 5

cell to cell communication via ions

Question 6

enzymes

Answer 6

integral membrane, transmembrane, or peripheral membrane proteins that catalyze specific chemical reactions either on the extracellular surface of cell oe inside cell

Question 7

properties of enzymes (3)

Answer 7

specificity
saturation
competition

Question 8

how long does it take to synthesize proteins

Answer 8

2 hours

Question 9

when are most proteins synthesized?

Answer 9

in advance and stored in an inactive form, activated when needed

Question 10

proteins provide a means for

Answer 10

immediate protein regulation

Question 11

interaction between substance and protein binding site follows the

Answer 11

mass action model

Question 12

glycococalyx

Answer 12

attached to EC surface of membrane lipids and proteins

Question 13

glycocalyx plays an important role in

Answer 13

enabling cells to identify and interact with each other

Question 14

characteristics of membrane structure (4)

Answer 14

selectively permeable barrier
mosaic
dynamic
fluid

Question 15

which concentrations are higher outside of the cell (5)

Answer 15

Na+
Ca++
Cl-
HCO3-
Glucose

Question 16

which concentrations are higher inside the cell (6)

Answer 16

K+
Mg++
Phosphates 
Animo acids 
pH
Proteins

Question 17

passive transport (3)

Answer 17

no energy required
down gradients (high to low; deltaC, deltaP, or deltaE)
diffusion, osmosis, bulk flow

Question 18

active transport (3)

Answer 18

energy required
up gradients (low to high)
active transporters, bulk (vesicular) transport

Question 19

random thermal motion

Answer 19

molecules in a fluid are continuously and randomly bouncing around

Question 20

rate of movement is proportional to

Answer 20

(temp)/(mass)

Question 21

diffusion

Answer 21

movement of substances other than water down a gradient (deltaC; deltaE or deltaP; how to low)

Question 22

net movement stops at

Answer 22

equilibrium

Question 23

random movement is

Answer 23

continuous

Question 24

diffusion is — specific

Answer 24

substance

Question 25

passive transport moves the system towards

Answer 25

equilibrium

Question 26

mass and heat flow model

Answer 26

concentration gradient (higher energy, lower energy)
driving force
mass or energy flow
resistance

Question 27

what can the mass and heat flow model be used to describe? (5)

Answer 27

diffusion
osmosis
blood flow through blood vessels 
air flow through airways 
capillary exchange

Question 28

type of substances
simple diffusion:
facilitated diffusion:

Answer 28

hydrophobic/lipophilic substances

hydrophilic/lipophobic substances

Question 29

movement
simple diffusion:
facilitated diffusion:

Answer 29

move directly through phospholipid bilayer

require membrane channels or carriers

Question 30

speed
simple diffusion:
facilitated diffusion:

Answer 30

slower

faster

Question 31

regulation
simple diffusion:
facilitated diffusion:

Answer 31

unregulated

regulated (specificity, saturation, competition)

Question 32

plasma membrane?
simple diffusion:
facilitated diffusion:

Answer 32

does not require

requires

Question 33

simple diffusion rate (SDR) equation

Answer 33

((gradient)(temp)(surface area))/((resistance)(diffusion distance))

Question 34

facilitated diffusion rate (FDR) IONS equation

Answer 34

(gradient)(temp)(#channels)(probability channels are open)

Question 35

facilitated diffusion rate (FDR) MOLECULES equation

Answer 35

(gradient)(temp)(#carriers)

Question 36

why are the kinetics of simple and facilitated diffusion different?

Answer 36

facilitated diffusion results in saturated carriers, would need more carriers to to increase rate of diffusion

Question 37

osmosis

Answer 37

movement of water across a plasma membrane down a free [h2o] gradient

Question 38

water movement via osmosis is facilitated by

Answer 38

awuaporins

Question 39

water permeability can be

Answer 39

regulated

Question 40

[free h2o] is proportional to

Answer 40

1/[solute]

Question 41

how will water molecules move?

Answer 41

passively down a free water gradient (toward the area with a higher solute concentration)

Question 42

which 3 values change during osmosis?

Answer 42

solute conc
water conc
container volume

Question 43

is osmosis substance specific?

Answer 43

no

Question 44

what determines h2o movement via osmosis?

Answer 44

impermeable substances

Question 45

osmolarity

Answer 45

the total (free) solute concentration of a solution (permeable and impermeable)

Question 46

one osmol is equal to

Answer 46

1 mol of solute particles

Question 47

a 1M solution of glucose has a concentration of —, whereas a 1 M solution of NaCl is —

Answer 47

1 Osm (1 osmol/L)

2 Osm (2 Osm of solute/1 L of solution)

Question 48

isosmotic

Answer 48

bathing solution Osm=cytosolic Osm

Question 49

hyposmotic

Answer 49

bathing solution Osm

Question 50

hyperosmotic

Answer 50

bathing solution Osm>cytosolic Osm

Question 51

tonicity

Answer 51

defined by the number of impermeable substances only

Question 52

tonicity determines the

Answer 52

direction of h2o movement via osmosis

bc only impermeable substances determine the movement

Question 53

isotonic solution (2)

Answer 53

concentration of impermeable substance=cell cytosol

cells in an isotonic bathing solution will have no net change in volume

Question 54

hypotonic solutions (2)

Answer 54

concentration of impermeable substance

Question 55

hypertonic solutions (2)

Answer 55

concentration of impermeable substance>cell cytosol

cells in an isotonic bathing solution will lose water and shrink

Question 56

normal ECF is – mosm of nonpenetrating solute

Answer 56

300

Question 57

normal cytosol is – mosm of nonpenetrating solute

Answer 57

300

Question 58

under normal circumstances, ECF Osm, is — to cell cytosol

Answer 58

isotonic

Question 59

cells do not have a net change in

Answer 59

volume

Question 60

what exists to maintain ECF Osm. isotonic?

Answer 60

homeostatic processes

Question 61

pressure is required to – the flow of water into a compartment

Answer 61

stop

Question 62

permeable solutes (7)

Answer 62

ethanol
FA
O2
CO2
steroids
urea 
glucose (dextrose)

Question 63

impermeable solutes (6)

Answer 63

Na+
K+
Cl-
CHO3-
protein
others

Question 64

any given cell, at any given moment may or may not be permeable to

Answer 64

glucose or urea

Question 65

any given cell, at any given moment may or may not be permeable to glucose or urea. this depends on (2)

Answer 65

cell type (ex. RBC always permeable to urea/glucose)

chemical signals present at the time (ex. liver and muscle cells only permeable to glucose if insulin present)

Question 66

if asked about a single cell and cell identity is not provided, assume

Answer 66

glucose and urea may be impermeable

Question 67

if asked about whole water over time, assume

Answer 67

glucose and urea are permeable

Question 68

how abundant is water in the body

Answer 68

most abundance molecule, accounts for 60% of body weight

Question 69

think about water as either

Answer 69

intracellular or extracellular

Question 70

the volume of water in the intracellular vs extracellular spaces is

Answer 70

unequal

Question 71

the osmolarity of the extracellular and intracellular spaces is

Answer 71

equal

Question 72

blood plasma accounts for

Answer 72

5% ECF

Question 73

interstitial fluid accounts for

Answer 73

15% ECF

Question 74

intracellular fluid accounts for

Answer 74

40%

Question 75

active transport requiers an

Answer 75

input of energy

Question 76

two types of active transport

Answer 76

1. active transport with membrane proteins (typically what is meant)
2. bulk (vesicular) transport

Question 77

active transporters

Answer 77

transmembrane protein that moves ions and hydrophilic building blocks across the plasma membrane up a deltaC (requires energy)

Question 78

classification of active transporters is based on (3)

Answer 78

1. number of substances being transported
2. directions substances are transported
3. source of energy for transport

Question 79

types of active transporters are based on (2)

Answer 79

number and direction of movement

Question 80

uniporter

Answer 80

moves only one substance

Question 81

symptorters/cotransporters

Answer 81

all substances moving in same directions

Question 82

antiporter/countertransporter

Answer 82

substances moving in different directions

Question 83

primary active transporters

Answer 83

energy comes directly from breakdown of ATP

Question 84

secondary active transporters

Answer 84

energy released from one substance moving down a gradient is used to pump a second substance up a gradient

Question 85

examples of active transport (3)

Answer 85

sodium potassium pump
calcium pump
hydrogen pump

Question 86

sodium potassium pump functions (2)

Answer 86

maintain Na+ and K+ concentration differences

electrogenic- establishes negative membrane potential

Question 87

cotransporteres (symporters) examples (2)

Answer 87

Na/glucose symporter

Na/aa symptorter

Question 88

countertransporters (antiporters) ex

Answer 88

Na/Ca exchanger

Question 89

Through a H+ channel (diffusion; DOWN concentration gradient), H+ moves

Answer 89

outside of

the cell

Question 90

However, if H+ is moving via active transport

(against its concentration gradient), then it will be moving

Answer 90

into the cell

Question 91

What type of H+ transporter is found in the

apical epithelium of the stomach??

Question 92

vesicular transport/bulk transport

Answer 92

moves large substances across the PM

Question 93

vesicular transport/bulk transport is — dependent

Answer 93

gradient

Question 94

vesicular transport/bulk transport requires

Answer 94

energy

Question 95

two types of vesicular transport/bulk transport

Answer 95

endocytosis

exocytosis

Question 96

endocytosis (3)

Answer 96

brings substances into cell
forms vesicle
removes membrane from PM

Question 97

exocytosis (3)

Answer 97

removes substances from cell
vesicle fuses to membrane
adds membrane to PM

Question 98

vesicular transport/bulk transport is how the cell modifies….

Answer 98

composition of the PM

Question 99

membrane potentials (Vm)

Answer 99

charge difference across the PM

Question 100

membrane potentials (Vm) is created by

Answer 100

unequal distribution of anions and cations across the cell membrane

Question 101

charge separation =

Answer 101

source of energy

Question 102

resting membrane potential

Answer 102

the charge difference across the plasma membrane when the cell us ate rest

Question 103

normal resting Vm

Answer 103

!-70mV (varies by cell type)

Question 104

– represents the charge inside the cell

Answer 104

sign

Question 105

membrane potential creates the electrical gradients for

Answer 105

movement of ions into/out of cells

Question 106

membrane potential opens or closes

Answer 106

gated ion channels

Question 107

membrane potential regulates

Answer 107

exocytosis