Chapter 4: Cell membranes and transport Flashcards

1
Q

What is the function of the Cell Surface Membrane

A

The Structure of cell surface membranes allows movement of substances between cells and their surroundings and allows cells to communicate with each other by cell signaling

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2
Q

Describe the fluid Moisaic membrane

A

It is a biological model that describes the structure of the cell membrane. It is descried as fluid because both phospholipids and proteins can move about by diffusion

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3
Q

Describe the other components of the fluid moasic membrane

A
  1. The Carbohydrate component of the glycolipids and glycoproteins protrude out into the extracellular environment
  2. The hydroxyl points point out into the solution in order for it to be soluble.
  3. There are also Cholesterol molecules, intrinsic and extrinsic proteins and a glycocalyx
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4
Q

Describe the significance of double bond kinks in the hydrocarbon chains of the phospholipid.

A

They play a major role in the fluidity of the cell membrane. The more double bonded kinks there are, the more fluid will be the cell membrane.

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5
Q

Describe how an unsaturated hydrocarbon s affects the fluidity of a cell membrane

A

The more unsaturated, the more fluid the membrane. The more single bonds there are in the the hydrocarbons, the more unsaturated it will be.

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6
Q

Name the types of proteins found in the proteins.

A
  1. Intrinsic proteins
  2. Transmembrane proteins
  3. Extrinsic proteins
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7
Q

What are intrinsic proteins and how do they stay intact

A

They are found in the inner layer
They stay intact because the hydrophobic regions repels from the water.
They may be found on the inner layer, outer layer or may span the whole membrane.

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8
Q

What are transmembrane proteins? Describe their structure.

A

They are proteins that span the whole membrane.

The hydrophobic regions which cross the membrane are often made up of one or more alpha chains

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9
Q

Why does intrinsic proteins stay so well in the membrane?

A

The hydrophobic region made from hydrophobic amino acids are next to the hydrophobic fatty acid tails and are repelled by the watery environment on either side of the membrane.

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10
Q

Explain why the phospholipid molecules are arranged as they are.

A

The hydrophilic regions, made from hydrophilic amino acids, are repelled by the hydrophobic interior of the membrane and therefore face into the aqueous environment inside or outside the cell, or line hydrophilic pores which pass through the membrane.

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11
Q

What are extrinsic proteins? Describe how these proteins maybe held in the membrane.

A

These are found on the inner or outer surface of the membrane. Many of these are a bound to the intrinsic proteins. Some are held in other ways e.g by binding to molecules insides or outside the cell or to phospholipids

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12
Q

What differentiates glycoproteins and glycolipids from other proteins and lipids?

A

They both have branching carbohydrate chains that faces the outside of the membrane.

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13
Q

What is the total thickness of a membrane?

A

7 nm on average including the cholesterol

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14
Q

What is the primary role of phospholipids?

A

The form the bilayer which is the basic structure on the membrane

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15
Q

Why is it difficult for polar molecules to pass through the phospholipid bilayer?
What is the consequence of said characteristic?

A

The tails of the phospholipids are non polar so it is difficult for polar molecules to pass through.
It allows the phospholipid bilayer to act as a very effective bilayer to water soluble molecules. Therefore amino acids and proteins will not leak out of the cell and unwanted molecules may not enter.

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16
Q

What are the ways that a phospholipid could be modified so that it becomes a signalling molecule?

A
  1. They may move about the membrane it self to activate other molecules.
  2. They maybe hydrolysed to release small water soluble signalling molecules.
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17
Q

What is cholesterol?

A

a small, lipid-related molecule with a hydrophilic
head and a hydrophobic tail which is an essential constituent of membranes, particularly in animal cells, conferring fluidity, flexibility and stability to the membrane

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18
Q

Describe the presence of cholesterol in Animals, plants and prokaryotes.

A

Animals: They have a very high abundance of cholesterol, almost having as much cholesterol as they have phospholipid.
Plant cells: Its much less common but still there.
Prokaryotes: Never have cholesterol

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19
Q

How does cholesterol affect the fluidity of a cell membrane?

A

At low temperatures, cholesterol increases the fluidity of the cell membrane, preventing it from becoming too rigid.

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20
Q

What is the benefit to a cell of having cholesterol in its phospholipid hilayers

A

It ensures that a cell can survive at a colder temperature and its helps stabilise the cell at a higher temperature when the cell could become too fluid.

It also improves the mechanical stability of the membrane, preventing it from breaking off too quickly.

The hydrophobic regions of cholesterol prevents ions from leaking off the membrane.

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21
Q

How do glycoproteins and glycolipids improve the stability of a membrane

A

The carbohydrate chains project into the watery surroundings of the cell and form hydrogen bonds.

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22
Q

What is the glycocalyx? How is it different between plants and animals?

A

The Carbohydrate chains projecting out create a sugary coating called the glycocalyx.
In animal cells, it is mainly glycoproteins but in plant cells it is mainly glycoproteins.

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23
Q

What are the 3 main groups of signalling receptors on the cell surface membrane?

A
  1. The signalling receptors.
  2. The receptors involved in endocytosis
  3. The receptors involved in cell adhesion.
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24
Q

How does the signalling receptors work?

A

These receptors recognise messenger molecules like hormones and neurotransmitters.
When the messenger molecules binds to the receptor, a series of chemical reactions is triggered inside the cell.

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25
Q

How do receptors to be responsible for endocytosis work?

A

These bind to molecules that are parts of the structures to be engulfed by the cell surface membrane.

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26
Q

What are antigens?

A

A substance that is foreign to the body and stimulates an immune response.

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27
Q

What is the function of a transport protein?

A

They provide hydrophilic channels or passageways for ions and polar molecules to pass through the membrane.

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28
Q

What is the benefit to a cell of having channel proteins and carried proteins

A

Channel proteins and carrier proteins are very specific to the ion or molecule that they can transport. Therefore they can control the movements of these ions or molecules into and out of the cell.

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29
Q

What are channel proteins?

A

The channel protein is a membrane protein of a fixed shape which has a water- filled pore through which selected hydrophilic ions or molecules can pass through.

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30
Q

What are carrier proteins?

A

They are a type of of membrane protein which changes shape to allow the passage into or out of the cell of specific ions or molecules by facilitated diffusion or active transport.

31
Q

What is cell signalling

A

It is the molecular mechanisms by which cells detect and respond to external stimuli, including communication between the cell and its environment.

32
Q

What is the function of cell of cell signalling?

A

The cells re need to give proper responses to their environmental changes. These are all coordinated by a complex range of signalling pathways.

33
Q

Describe the basic components of a signalling pathway.

A
  1. A stimulus/signal is received by the a cell.
  2. The signal is detected by a receptor.
  3. Transmission of message/ signal.
  4. The message is sent to a target/ effector.
  5. Finally, a response is produced by the effector itself.
34
Q

What is transduction?

A

It is the conversion of the original signal message and then transmitting it.

35
Q

Why are signalling molecules very small?

A

They have to be small so it is easy to transport.

36
Q

How does the medium of transport differs distance and between the type of organism?

A

small distances are made by diffusion while while the blood is used for long distances in animals and the phloem is used for long distances in plants.

37
Q

Describe the variety of signalling molecules.

A

They can either be electrical (as in neurotransmitters) or chemicals (as in hormones). Also, outside stimuli may effect too.

38
Q

What are the different types of signalling molecules? How does this affect the function of the cell membrane?

A
  1. Hydrophobic: They will be able to diffuse directly through the membrane and they will bind to the to the receptors in the cytoplasm or the nucleus.
  2. Hydrophilic: The signalling protein will arrive at a receptor in the surface membrane.
39
Q

How does a signal transmission of a signal occur when the molecule arrives at the receptor?

A

The signal will bring about a change in the shape of the receptor and because the membrane spans the whole membrane, the signal is transmitted and the signal is passed into the cell allowing it to interact with the next component of the pathway.

40
Q

What is the G protein?

A

The are a family of proteins inside the cell that act as switches to bring about a small messenger to carry a signal from the exterior of a membrane to the interior of a cell.
They trigger the signal cascade.

41
Q

What does amplification of a signal mean?

A

Second messenger molecules can stimulate enzymes to amplify in a chain.

42
Q

Name a few possible responses caused by a signalling cascade.

A

A secretion
Transcription
Movement
Metabolic change

43
Q

Outside of signalling cascades what are the ways that other ways that a receptor alters the activity of a cell?

A
  1. Opening an ion channel
  2. Acting as a membrane-bound enzyme
  3. Acting as an intracellular receptor.
44
Q

What are the five basic mechanisms for movement of substances in and out of a cell?

A
  1. Diffusion
  2. Facilitated diffusion
  3. Osmosis
  4. Active transport
  5. Bulk transport
45
Q

What is diffusion

A

It is the net movement of molecules as a result of of tue random motion of its molecules or ions from a region of higher concentration to a region of lower concentration

46
Q

What are the various types of signalling pathways?

A
  1. Direct cell to cell signalling
  2. Signal secreted by exocytosis
  3. Hydrophobic signal molecule
  4. Secretion of the chemical
47
Q

What are the factors that affect the rate of diffusion

A
  1. the steepness
  2. The tempera
  3. The surface area
  4. The nature of the molecules or the ions
48
Q

What is the relationship between surface area and volume?

A

As the volume ratio decreases as a the size of the any three dimensional object increases.

49
Q

What is facilitated diffusion?

A

Facilitated diffusion is the diffusion of a substance through transport proteins in a cell membrane; the proteins provide hydrophilic areas that allow the molecules or ions to pass through the membrane which would otherwise be less permeable to them.

50
Q

What are the two types of proteins involved in facilitated diffusion?

A

Channel Proteins and Carrier Proteins

51
Q

What are the factors that affect the rate of facilitated diffusion?

A
  1. The relative concentration of molecules (Concentration gradient)
  2. The Number of carrier and channel proteins on the membrane.
52
Q

What is Osmosis?

A

It is the movement of water molecules from a region of high water potential concentration to a region of low water potential through a partially permeable membrane.

53
Q

What stops the particle molecules from moving through a partially permeable membrane?

A

The molecules are too large to pass through

54
Q

What is the water potential?

A

It is the tendency of water molecules to move out of a solution.

55
Q

What are the factors that affect the movement of water down a water potential gradient?

A
  1. How much water there is relative to the solutes in it

2. How much pressure is being applied to the solution.

56
Q

What does equilibrium mean in the context of water?

A

It is when the water potential of the solution is the same all over.

57
Q

What is the effect of pressure on water potential?

A

Applying pressure increases the tendency of water to move out of the cell so, therefore, the water potential will also increase.

58
Q

How is water potential at atmospheric pressure denoted?

A

By the greek letter psi

At atp, is 0. So increasing the water potential will make it negative.

59
Q

What does a turgid cell wall mean?

A

It means that the protoplast is fully inflated with water and that it is pushing out towards the cell wall

60
Q

What does plasmolysis means?

A

It is the process by which the protoplast shrinks away from the cell wall due to excess water leaving the cell due to a lower water potential outside the cell.

61
Q

What is meant by the term incipient plasmolysis?

A

It is the point at which the the pressure potential has just reached zero and plasmolysis is about to occur.

62
Q

What is the experiment to observe the osmosis taking place in a plant cell?

A

Using coloured sap in storage regions of plants, they can be put in solutions and the movement of the colour can be observed.

63
Q

How can we determine the water potential of a plant tissue?

A

Use a known water potential and then find the water potential through which causes neither a loss or a gain in water.

64
Q

What explains why the concentration of Na+ and K+ ions are more concentrated inside the solution than they are outside the solution?

A

The ions usually come in from the external solutions, so it is usually diffusion that is responsible for the gradient.

65
Q

What is meant by the term active transport?

A

It is the movement of molecule or ions through a transport proteins against the concentration gradient by the use of of energy from ATP

66
Q

Why is energy needed for active transport?

A

Energy is required in order for the carrier proteins to change their shape.

67
Q

What is the Na+-K+ pump?

A

It is a membrane protein that moves sodium out of the cell and potassium into the cell.

68
Q

What happens to the net charge of the cell due to the Na+-K+ Pump

A

As more potassium moves out of the cell, the net result is the the inside of the cell becomes more negative than the outside.

69
Q

What is the importance of Active transport?

A
  1. In the reabsorption of the kidneys
  2. Absorption of some of the products after their digestion in the gut
  3. In plants, it is used to load sugars from the photosynthesising cells of the leaves into the phloem for the transport around the plant.
  4. Loading of some organic ions into the root hairs.
70
Q

Endocytosis is…

A

… the bulk movement of liquids (pinocytosis) or solids (phagocytosis) into a cell, by the infolding of the cell surface membrane to form vesicles containing the substance; endocytosis is an active process requiring ATP

71
Q

Exocytosis is …

A

The bulk movement of liquids or solids out of a cel, by the fusion of vesicles containing the substance with the cells surface membrane; exocytosis is an active process requiring ATP

72
Q

What is the mechanism relevant to endocytosis?

A

It involves the engulfing of the material by the cell surface membrane to form a small sac or endocytic vacuole.

73
Q

what are the two types of endocytosis? What is the difference between them

A

Phagocytosis: It is the bulk uptake of solid materials.
Pinocytosis: It is the bulk uptake of liquid

74
Q

What is the mechanism behind Exocytosis?

A

Secretory vesicles from the Golgi body carry the enzymes to the cell surface and release their contents.