Cells (Unit 2)

Question 1

Cell membrane

Answer 1

Structure- consists of a phospholipid bilayer where channel proteins and carrier proteins are found, hydrophilic phosphate head and hydrophobic fatty acid chains
Function- selectively permeable allows passage of substances and receptors on surface allow cell recognition

Question 2

Nucleus

Answer 2

Structure- double membrane called a nuclear envelope which has nuclear pores. Contains histone bound linear DNA and has a nucleolus
Function- stores genetic info which codes for polypeptides, site of DNA replication and transcription, nucleolus makes ribosomes

Question 3

Mitochondria

Answer 3

Structure- outer membrane and inner membrane which is highly folded to form cristae with matrix on the inside containing small ribosomes, circular DNA and enzymes for respiration
Function- site of aerobic respiration and produces ATP

Question 4

Chloroplast

Answer 4

Structure- have a double membrane that surrounds a gel like stroma which contains thylakoids, small ribosomes, circular DNA and starch granules. Grans are stacks of thylakoids and lamella is a thylakoid linking the grana
Function- photosynthesis takes place within thylakoid membranes

Question 5

Golgi apparatus

Answer 5

Structure- flattened membrane sacs with vesicles surrounding the edges
Function- modifies lipids and proteins, packages lipids and proteins into vesicles, produces lysosomes

Question 6

Lysosomes

Answer 6

Structure- type of Golgi vesicle with no obvious internal structure surrounded by a membrane and contains hydrolytic enzymes e.g lysozymes
Function- releases hydrolytic enzymes e.g lysozymes, hydrolyse pathogens or old unwanted cell components

Question 7

Ribosomes

Answer 7

Structure- composed of two sub units- proteins and rRNA
Function- site of protein synthesis (translation)

Question 8

Rough endoplasmic reticulum

Answer 8

Structure- system of membranes RER has ribosomes attached along the outer surface. Has a large surface area to increase rate of protein synthesis
Function- ribosomes synthesise proteins, proteins are processed and transported inside RER, packaged into vesicles for transport

Question 9

Smooth endoplasmic reticulum

Answer 9

Structure- no ribosomes along the outer surface, system of membranes
Function- synthesises, processes, transports and packages lipids and carbohydrates

Question 10

Cell wall

Answer 10

Structure- rigid structures surrounding the cell membrane and is composed of cellulose in plants and algae and chitin in fungi
Function- maintain cell shape by providing structural support, prevents cell changing shape or bruising

Question 11

Cell vacuole

Answer 11

Structure- permanent pockets of cell sap
Function- maintains osmotic pressure inside the cell to ensure plant cells remain turgid

Question 12

How are prokaryotes different to eukaryotes

Answer 12

Prokaryotes are much smaller, they lack a nucleus and other membrane bound organelles, smaller ribosomes, cell wall that contains murein a glycoprotein, DNA is short and circular not associated with proteins and free in the cytoplasm

Question 13

Capsid

Answer 13

Outer protein coat on viruses

Question 14

Ribosomes in prokaryotic

Answer 14

Smaller than eukaryotic ones
Site of protein synthesis

Question 15

DNA in prokaryotic

Answer 15

In single circular loop free in cytoplasm and not associated with proteins

Question 16

Plasmids

Answer 16

Small circular pieces of DNA
No all prokaryotic have them

Question 17

Cell wall (prokaryotic)

Answer 17

Rigid outer covering made of murein, a glycoprotein

Question 18

Flagellum

Answer 18

A tail like structure which rotates to move the cell

Question 19

Mesosomes

Answer 19

Infoldings of the inner membrane which contain enzymes required for respiration

Question 20

Pilli

Answer 20

Hair like proteins which help attachment to other cells

Question 21

Are viruses living or not

Answer 21

They are acellular (not made of cells) and non living (cannot replicate or respire independently)

Question 22

Structure of viruses

Answer 22

Consist of nucleic acid (DNA or RNA) enclosed in a protective protein coat called the capsid and sometimes covered in a lipid layer called a lipid envelope
There are also attachment proteins

Question 23

Viral replication

Answer 23

• viruses attaches its attachment proteins to host cells membrane surface receptor
• genetic material (DNA or RNA) is released into host cell
• viral proteins and genetic material is replicated by host cells enzymes
• new virus particles assemble
• viruses are released from the host cell, usually destroying and bursting the cell in the process

Question 24

Binary fission

Answer 24

• circular DNA and plasmids replicate
• cell membrane grows dividing the cytoplasm and a new cell wall also forms
• two daughter cells produced each contains one circular DNA copy and many plasmids

Question 25

What cell undergo binary fission

Answer 25

Prokaryotic cells

Question 26

Why can viruses not undergo cell division

Answer 26

They are non living

Question 27

What is Magnification

Answer 27

Number of time greater image in than size of actual object

Question 28

What is Resolution

Answer 28

Minimum distance apart 2 objects can be to be distinguished as separate objects

Question 29

Light (optical) microscopes

Answer 29

2D image Light passes through specimen Lowe resolution and magnification Must be thin Can view living organisms Shows colour

Question 30

Two types of electron microscope

Answer 30

SEMs scanning electron microscope TEMs transmission electron microscope

Question 31

Electron microscopes

Answer 31

Higher magnification and resolution Used to view smaller objects in greater detail

Question 32

SEMs

Answer 32

3D image Electrons deflect off specimen surface Can be used on thick specimens Uses vacuum No colour High resolution

Question 33

TEMs

Answer 33

2D Electrons pass through specimen, denser parts absorb more so appear darker High resolution due to short wavelength of electrons Thin specimen Uses vacuum No colour

Question 34

Limitation of electron microscopes

Answer 34

- whole system must be in a vacuum so living specimens cannot be viewed - complex staining process is required which many introduce artefacts into the image -specimens have to thin especially for TEM - SEM has a lower resolving power than TEM but both greater than the optical microscope

Question 35

What is cell fractionation

Answer 35

The process in which different parts of the cell are separated so organelles can be studied in detail

Question 36

Two types of cell fractionation

Answer 36

Differential centrifugation Density gradient centrifugation

Question 37

Why are cell prepared in a cold isotonic buffered solution

Answer 37

Cold- reduce enzyme activity Isotonic- prevent organelles from shrinking and bursting Buffered- maintain constant pH to prevent enzymes denaturing

Question 38

What are the two step processes in cell fractionation and what happens in each

Answer 38

Homogenisation- cell is broken using a blender and solution is filtered Ultracentrifugation- solution is spun at a high speed

Question 39

What does the centrifugal forces cause to happen

Answer 39

Causes pellets of the most dense to form at the bottom then solution is spun at a high speed with increases each time

Question 40

What is the order of centrifugation

Answer 40

Nuclei Mitochondria Lysosomes ER Ribosomes

Question 41

What is the role of mitosis and the cell cycle

Answer 41

Produce identical daughter cells

Question 42

Stages of cell cycle

Answer 42

Interphase- cell grows organelles duplicate DNA replicates Mitosis- cell division Cytokinesis- cell cytoplasm divides to from two identical daughter cells

Question 43

Why is mitosis important

Answer 43

Growth Repair Reproduction in some single celled organisms

Question 44

What is a chromatid

Answer 44

One arm of a newly copied chromosome

Question 45

What is a centromere

Answer 45

Joins chromatids together

Question 46

What occurs during Prophase

Answer 46

Chromosomes become smaller and condense Spindle fibres from each centriole Nuclear envelope disintegrates and nucleolus disappears

Question 47

What occurs during Metaphase

Answer 47

Chromosomes arrange themselves at equator of the cell They attach to spindle fibres

Question 48

What occurs during Anaphase

Answer 48

Rapid stage Centromere divides and spindle fibres contract which pulls chromatids to opposite poles

Question 49

What occurs during Telophase

Answer 49

Chromosomes uncoil and become chromatin Nucleoli reappears and nuclear membrane reforms Spindle fibres disappear

Question 50

What is cancer

Answer 50

Uncontrolled mass or growth of cells

Question 51

What causes cancer

Answer 51

Mutations to genes

Question 52

What is a benign tumour

Answer 52

Non cancerous Contained within a membrane

Question 53

What is a malignant tumour

Answer 53

Cancerous

Question 54

What is apoptosis

Answer 54

Programmed cell death

Question 55

What is metastasis

Answer 55

Moves through the blood

Question 56

What does a cell membrane control

Answer 56

They are partially permeable so control which substances can enter and leave a cell

Question 57

What does a cell membrane act as

Answer 57

A barrier

Question 58

What organelles have a double membrane

Answer 58

Mitochondria and nucleus

Question 59

Why are cell membranes described as the fluid mosaic model

Answer 59

Fluid- phospholipids are constantly moving Mosaic- proteins are scattered

Question 60

What are the components of a cell membrane

Answer 60

Phospholipid bilayer Membrane proteins Glycoproteins Glycoproteins Cholesterol

Question 61

What is a phospholipid bilayer

Answer 61

Forms a barrier but centre is hydrophobic but allows small, no polar molecules like carbon dioxide to diffuse through

Question 62

What are intrinsic proteins and examples

Answer 62

Spam from one side of the phospholipid bilayer to the other Carrier and channel proteins

Question 63

What are extrinsic proteins and examples

Answer 63

Occurs in surface of the lipid bilayer E.g receptors

Question 64

What are glycoproteins

Answer 64

Proteins with a carbohydrate attached

Question 65

What are glycolipids

Answer 65

Lipid with a carbohydrate attached

Question 66

What are the role of glycoproteins and glycolipids

Answer 66

Act as antigens Act as recognition sites Help cells attach to one another to form tissues

Question 67

What is cholesterol

Answer 67

Type of lipid between the phospholipids which restricts the movements of other molecules Very hydrophobic acts as a barrier

Question 68

How does cholesterol give the cell membrane stability

Answer 68

By binding to tails of phospholipids which causes them to pack together so reduces movement

Question 69

How can permeability be determined

Answer 69

Amount of movement and gaps

Question 70

What affects permeability

Answer 70

Temperature Solvents

Question 71

How does a temperature below 0 affect permeability

Answer 71

Phospholipids pack closely together, channel and carrier proteins denature which increases permeability and ice crystals form which pierces membrane

Question 72

How does a temperature between 0 and 45 degrees affect permeability

Answer 72

Phospholipids move around freely As temp increases so does kinetic energy so permeability increases

Question 73

How does temperature above 45 degrees affect permeability

Answer 73

Phospholipids start to melt so membrane becomes more permeable Water inside cell expands putting pressure on the membrane Channel and carrier proteins denture which increases permeability

Question 74

How do solvents affect the permeability of membranes

Answer 74

They can insert themselves into the bilayer and from hydrogen bonds with a phospholipid molecule near the ester bond This pushes phospholipids out of their orderly placements and increases their movement, this disrupts the membranes structure so increasing its permeability Solvents also denature proteins by disrupting bonds

Question 75

What is simple diffusion

Answer 75

Movement of particles from an area of high concentration to an area of low concentration until equilibrium is reached

Question 76

Is simple diffusion active or passive process

Answer 76

Passive process Down the concentration gradient

Question 77

Example of simple diffusion

Answer 77

Oxygen and carbon dioxide in alveoli

Question 78

What are the 4 factors affecting the rate of simple diffusion

Answer 78

Concentration gradient- greater concentration gradient faster diffusion Membrane thickness- thinner membrane faster diffusion Surface area- larger surface area faster diffusion Temperature- higher temp faster diffusion

Question 79

What is facilitated diffusion

Answer 79

Diffusion that occurs through specific intrinsic proteins in the cell membrane called carrier proteins and channel proteins

Question 80

Why do large polar molecules require to diffuse through specialised carrier or channel proteins

Answer 80

They move very slowly without

Question 81

What is the role of carrier proteins

Answer 81

Move large molecules across the membrane

Question 82

How do carrier proteins work

Answer 82

Large molecules attach then the protein changes shape releasing the molecule on the other side of the membrane

Question 83

What is the role of channel proteins

Answer 83

Form pores for charged particles to diffuse through

Question 84

How do protein channels work

Answer 84

No changing shape, simple tunnel which allows charged particles to cross the membrane

Question 85

What are the 2 factors that affect the rate of facilitated diffusion

Answer 85

Concentration gradient- greatest concentration gradient after facilitated diffusion Number of channel or carrier proteins- greater number faster facilitated diffusion, but only until a certain point once all proteins are in use facilitated diffusion cannot happen any faster

Question 86

What is osmosis

Answer 86

Movement of water molecules from a region of high water potential to an area of low water potential through a partially permeable membrane

Question 87

What is water potential

Answer 87

The likelihood of water molecules to diffuse out of or into a solution

Question 88

What is the water potential of pure water

Answer 88

Zero

Question 89

What does adding solutes do to the water potential

Answer 89

Decreases it to below zero More negative

Question 90

What is an isotonic solution

Answer 90

Same concentration of solutes and solvents

Question 91

What is a hypertonic solution

Answer 91

More solutes less solvents

Question 92

What is a hypotonic solution

Answer 92

Fewer solutes, more solvents

Question 93

Where will water always move to

Answer 93

Where there are more dissolved solutes

Question 94

What happens to an animal cell in a hypotonic solution with a higher water potential

Answer 94

Water enters the cell and it swells and bursts

Question 95

What happens to an animal cell in an isotonic solution

Answer 95

Water neither enters or leaves cell No change to state of cell

Question 96

What happens to an animal cell in a hypertonic solution with a lower water potential

Answer 96

Water leaves the cell and it shrinks and shrivels

Question 97

What happens to a plant cell in a hypotonic solution with a higher water potential

Answer 97

Water enters the cell causing it to swell but it doesn’t burst as the cell wall protects ad cell become turgid

Question 98

What happens to a plant cell in a isotonic solution

Answer 98

Water neither enters or leaves cell

Question 99

What happens to a plant cell in a hypertonic solution with a lower water potential

Answer 99

Water leaves the cell but plant cells are protected from shrinking but vacuole shrinks then cell membranes pull away from cell wall (plasmolysis)

Question 100

What are the 3 factors that affect the rate of osmosis

Answer 100

Water potential gradient- higher water potential gradient faster osmosis Membrane thickness- thinner membrane faster osmosis Surface area- larger surface area faster osmosis as more molecules can move across in the same amount of time

Question 101

What is active transport

Answer 101

Movement of particles from an area of low concentration to an area of high concentration against the concentration gradient using ATP and carrier proteins

Question 102

What is ATP hydrolysed into

Answer 102

ADP and Phosphate molecule

Question 103

What are the 3 factors that affect the rate of active transport

Answer 103

Speed of carrier proteins- faster movement faster active transport Number of carrier proteins- more proteins means more active transport Rate of respiration- greater rate means more ATP produced so more active transport

Question 104

What is co trasnport

Answer 104

Active transport that uses a type of carrier proteins called co transporters which bind two molecules at a time One moves down its concentration gradient and this is used to move the other molecule across the membrane against its concentration gradient

Question 105

What is an example of co transporters

Answer 105

Glucose form small intestine to blood

Question 106

What is the process of co transport of glucose

Answer 106

Na ions are actively transported into the blood by a sodium potassium pump. This creates a concentration gradient as there is more sodium in the ileum than the epithelial cell The concentration gradient causes Na ions to diffuse from the ileum into the epithelial cell down their concentration gradient through the sodium glucose co transporter protein . Glucose enters the cell with sodium There is a higher concentration of glucose in the epithelia cell than the blood so glucose diffuses down its concentration gradient through a channel protein via facilitated diffusion

Question 107

What is an antigen

Answer 107

A molecule on the surface membrane that triggers an immune response

Question 108

What do antigens enable the immune system to identify

Answer 108

Pathogens Abnormal body cells e.g cancer cells Toxins Cells from other organisms of the same species

Question 109

What are the types of white blood cells

Answer 109

Phagocytes and lymphocytes

Question 110

What are phagocytes

Answer 110

A white blood cell that digests and breaks down pathogens by phagocytosis

Question 111

What are the two types of phagocytes

Answer 111

Neutrophils and Macrophages

Question 112

What do macrophages do

Answer 112

At end of phagocytosis they present the pathogens antigens on its surface membrane (APC) to recruit lymphocytes to attack pathogen

Question 113

What are the two types of lymphocytes

Answer 113

T-lymphocytes and B-lymphocytes

Question 114

What is phagocytosis

Answer 114

Cellular process of engulfing particles using the cell membrane- Carried out by phagocytes

Question 115

What is the process of phagocytosis

Answer 115

Pathogen receptor proteins attach to the phagocytes surface receptor proteins Pathogen is engulfed by phagocyte to form a phagosome Lysosomes fuse to phagosome to form a phagolysosome and release H2O2, HCl and digestive enzymes Harmless products are removed Phagocyte then presents the pathogens antigens on its surface membrane making it can antigen presenting cell

Question 116

What is the phagocyte called when it presents the pathogens antigens on its cell surface membrane

Answer 116

Antigen presenting cell (APC)

Question 117

What does the cell mediated response involve

Answer 117

T-lymphocytes

Question 118

How to T- cells respond to the APC

Answer 118

T-helper cells have receptors that allows them to fit exactly to the presented antigens

Question 119

What do T-helper cells do

Answer 119

Stimulate phagocytes for further phagocytosis Stimulate cytotoxic T-cells Activate B-cells

Question 120

What is the role of cytotoxic T-cells

Answer 120

Kills the specific pathogen via perforin and cytokines

Question 121

What does the humoral response involve

Answer 121

B-lymphocytes

Question 122

What do B-cells do

Answer 122

Target pathogens by producing antibodies

Question 123

How are B-cells activated

Answer 123

Gets antigen from APC then presents it on its own surface membrane T-helper cells bind to antigen to activate B cells

Question 124

What is clonal selection

Answer 124

B cells divide by mitosis to form plasma cells and memory cells

Question 125

What are plasma cells and what response are they involved in

Answer 125

Produce antibodies complimentary to antigens Primary response

Question 126

What are memory cells and what response are they involved in

Answer 126

Upon second infection memory cells rapidly differentiate into plasma B cells to produce antibodies Secondary immune response- circulate blood in case of reinfection

Question 127

What protein structure is antibodies

Answer 127

Quaternary structure

Question 128

What are the 4 chains on antibodies and how are the held together

Answer 128

4 polypeptide chains (2 heavy, 2 light) held together by disulphide bridges

Question 129

What is the variable region

Answer 129

The antigen-binding site It’s different in every antibody due to their different tertiary structures

Question 130

What region is the same for all antibodies

Answer 130

Constant region

Question 131

What region provides the antibody with flexibility

Answer 131

Hinge region

Question 132

Wha is agglutination

Answer 132

Antibodies bind to antigens on pathogens causing them to clump together which are they destroyed by phagocytosis

Question 133

How do antibodies neutralise toxins

Answer 133

Antibodies bind to toxins and neutralise them

Question 134

What do antibodies prevent viruses entering host cells

Answer 134

Antibodies bind to proteins on viruses and stop them attaching to host cells

Question 135

What is antigenic variability

Answer 135

Pathogens forming different strains by mutations which result in different antigens

Question 136

What happens if you are reinfected to a new strain

Answer 136

Memory cells will not recognise antigen therefore antibodies made last time wont be complimentary, so the body has to start again with primary response so you will get all the symptoms

Question 137

Why is it hard to produce vaccines

Answer 137

Antigenic variation

Question 138

What is a vaccine

Answer 138

Contains inactive or dead parts of a pathogen to trigger an immune response

Question 139

What does one dose of a vaccine induce

Answer 139

A primary response

Question 140

What can multiple doses of a vaccine increase

Answer 140

Number of antibodies and memory cells through secondary response

Question 141

How are pathogens made harmless

Answer 141

Killing leaving antigens unaffected Weakening- culturing pathogens Purified antigens- removed pathogen Using inactivated toxins

Question 142

Why don’t vaccinations fully elimate diseases

Answer 142

Fails to induce immunity in some people People get infected before enough antibodies are generated Antigenic variability Different strains Objections to vaccines based on ethical grounds

Question 143

What are ethical issues with vaccines

Answer 143

Tested on animals first Humans in clinical trials may be at risk Some people refuse vaccines over fear of side effects

Question 144

What is herd immunity

Answer 144

A population can be protected from a certain virus if everyone receives the vaccine

Question 145

How is herd immunity achieved

Answer 145

Vaccinating a large amount of the population so enough people are immune meaning it cannot spread

Question 146

What is active immunity

Answer 146

Body making its own antibodies

Question 147

What is passive immunity

Answer 147

Body being given antibodies

Question 148

Example of natural active immunity

Answer 148

Direct exposure to an active pathogen

Question 149

Example of artificial active immunity

Answer 149

Vaccinations

Question 150

Example of natural passive immunity

Answer 150

Baby gets antibodies through mothers breast milk

Question 151

Example of artificial passive immunity

Answer 151

Injected with antibodies from someone else

Question 152

Is active immunity long or short term protection and why

Answer 152

Long term because memory cells are produced

Question 153

Is passive immunity long or short term protection and why

Answer 153

Short term protection, only lasts a few months after birth as no memory cells are produced

Question 154

What is monoclonal antibodies

Answer 154

Antibodies produced by plasma cells which are clones of one b cell

Question 155

Why are monoclonal antibodies useful

Answer 155

They can be produced outside the body and they are reactive with only one type of antigen

Question 156

What are the main uses of monoclonal antibodies

Answer 156

Target medication to specific cells by attaching drug to antibody Pregnancy testing Medical diagnosis by identifying proteins using ELISA test

Question 157

How are monoclonal antibodies involved in pregnancy testing

Answer 157

Monoclonal antibodies are specific to hCG

Question 158

How are monoclonal antibodies involved in diagnosis

Answer 158

Particular antigens are targeted by antibodies to measure levels of that antigen in the body

Question 159

What is the ELISA test used for

Answer 159

To test for presence of any antigen or antibody

Question 160

What is an ELISA test

Answer 160

Where antibodies are attached to an enzyme which produces a coloured substrate

Question 161

What is the structure of HIV

Answer 161

Viral envelope Capsid RNA Attachment proteins Reverse transcriptase enzymes

Question 162

How does HIV replicate

Answer 162

Attachment proteins on virus bind to receptors on surface of T helper cells Envelope fuses with T helper cell membrane Capsid is released into cell where it releases RNA and revers transcriptase enzymes Reverse transcriptase is used to make DNA from RNA Newly made DNA moves into nucleus and gets replicated when cell replicates Viral particles assemble which bud off cell membrane bursting the cell

Question 163

What can HIV lead to

Answer 163

AIDS

Question 164

What are symptoms of AIDS

Answer 164

Infections of respiratory system Tuberculosis Chronic diarrhoea

Question 165

How can AIDS be treated

Answer 165

Antiretroviral drugs Stem cell therapy PrEP

Question 166

Why are antibiotics ineffective against HIV and viruses

Answer 166

Viruses do not have a cell wall

Question 167

What is role of antibodies in producing a positive result in ELISA test

Answer 167

First antibody binds to antigen Second antibody with enzymes attached is added Second antibody binds to antigen Colour changes

Question 168

Why is the solution washed in between steps in the ELISA test

Answer 168

To remove excess/unattached antibodies