Biology Paper 1: Topics 1-5

Question 1

What are eukaryotic cells?

Answer 1

Complex cells. All plant and animal cells

Question 2

What are prokaryotic cells?

Answer 2

Smaller, simpler. Bacteria. Prokaryotes are single celled organisms

Question 3

What’s the nucleus?

Answer 3

Contains genetic material arranged in chromosomes, controls activities of the cell

Question 4

What’s a cytoplasm

Answer 4

Contains enzymes which Control chemical reactions that take place here

Question 5

What’s a cell membrane?

Answer 5

Holds cell together, controls what goes in and out

Question 6

What’s mitochondria

Answer 6

Where reactions for respiration (transfer energy cells need to work) occur

Question 7

What are ribosomes?

Answer 7

Involved in translation of genetic material in synthesis of proteins

Question 8

What’s a rigid cell wall

Answer 8

Made of cellulose, supports and strengthens cell

Question 9

What’s a large vacuole

Answer 9

Contains cell sap (weak solution of sugar and salts) and maintains internal pressure of cell

Question 10

What are chloroplasts

Answer 10

Where photosynthesis occurs. Contain green chlorophyll

Question 11

What’s chromosomal dna

Answer 11

Controls activities and replication, floats free in cytoplasm.

Question 12

What’s flagellum

Answer 12

Rotates to move bacterium away from harmful and towards good substances

Question 13

What’s plasmid dna

Answer 13

Small loops of extra dna, can be passed between bacteria, contain genes

Question 14

What’s a specialised cell

Answer 14

Cell with a structure adapted to its function

Question 15

What’s resolution

Answer 15

How well microscope distinguishes between two points that are close together

Question 16

What are the two types of microscope

Answer 16

Light microscope - pass light through specimen

Electron microscope - pass electrons though specimen, cant be used on living cells

Question 17

What is magnification

Answer 17

How many times bigger the image is

Question 18

What are the two equations for magnification

Answer 18

Total magnification = eyepiece lens magnification x objective lens magnification
OR
Magnification = image size / real size

Question 19

Put the four measurements smaller than cm in size order, and how do you convert between them?

Answer 19

Millimeter, mm
Micrometer, um
Nanometer, nm
Picometer, pm

Milli to micro = x1000

Question 20

What an enzyme? What’s their job?

Answer 20

A biological catalyst. Speed up useful chemical reactions in the body without being changed. Enzymes have a high specificity for their substrate because substrate must fit the active site (lock and key mechanism)

Enzymes break big molecules (proteins, lipids, carbohydrates) into smaller components, so they can be used for growth and life processes. Enzymes are also used to synthesise carbohydrates, proteins and lipids from their smaller components

Enzymes break down starch (a carbohydrate) in plants into smaller molecules that can be respired to transfer energy to be used by cells

Question 21

What’s substrate

Answer 21

Molecule changed in the reaction

Question 22

What’s an active site

Answer 22

Where enzyme joins onto substrate

Question 23

How do temperature, ph and substrate concentration affect rate of enzyme controlled reaction?

Answer 23

Temperature = higher temp increases rate until enzyme denatures. Optimum temperature is different for all enzymes
pH = too high or too low pH denatures the enzyme. Optimum pH often 7
Substrate concentration = higher substrate concentration > faster reaction, because more likely an enzyme will encounter a substrate molecule. When all active sites full, further increase in substrate concentration makes no difference

Question 24

What’s denaturing of enzyme?

Answer 24

Some bonds holding enzyme together break, causing shape of enzyme’s active site to change. Substrate will no longer fit.

Question 25

What’s an experiment to investigate effect of pH on enzyme activity?

Answer 25

Use continuous sampling to time how long it takes amylase to break down all starch solution, when mixed with buffer solutions of various pHs. Detect starch using iodine solution, changes from orange to black if starch present

Question 26

What’s the two equations for rate of reaction?

Answer 26

If experiment is measuring how much something changes over time:
Rate of reaction = change / time
OR
Rate of reaction = 1000 / time

Question 27

What do digestive enzymes do?

Answer 27

Break down food into smaller, soluble molecules that can then easily pass through walls of digestive system, so can be absorbed into bloodstream, then pass into cells for use in the body

Question 28

What are the big molecules carbohydrates, proteins and lipids broken down into and how?

Answer 28

Carbohydrates > simple sugars, by carbohydrase enzymes.
Eg: starch (amylase enzyme) > maltose + other sugars

Proteins > amino acids, by protease enzymes
Lipids > glycerol + fatty acids, by lipase enzymes

Question 29

What’s glycogen and hows it made?

Answer 29

Chains of glucose molecules broken down into glycogen using glycogen synthase enzyme.

Glycogen is a molecule used to store energy in animals

Question 30

What’s diffusion?

Answer 30

The net (overall) movement of particles from an area of higher concentration to an area of lower concentration.

It moves down the concentration gradient therefore is passive movement, happens in liquids and gases. Only small molecules can dissolve through cell membranes

Question 31

What’s osmosis?

Answer 31

The net movement of water molecules across a partially permeable membrane (membrane with small holes in), from a region of higher water concentration to a region of lower water concentration (water can be replaced by ‘solute’)

Solute solution will become more dilute with osmosis

Question 32

What’s active transport

Answer 32

Movement of particles across a membrane against a concentration gradient (lower to higher) using energy transferred during respiration

Question 33

What’s an experiment for investigating osmosis

Answer 33

Put potato cylinder groups of 3 in sucrose solutions of different concentrations, then calculate percentage change in mass for each cylinder group before and after going into sucrose. Negative result means cylinders lost mass

Percentage change in mass = ((final mass - initial mass) / initial mass) x 100

Question 34

On a graph plotted for the ‘investigating osmosis’ experiment, what do __ mean:

• points above x axis
• where curve crosses x axis
• points below x axis

Answer 34

Above; water concentration of sucrose solution is higher than in cylinders. Cylinders gained mass, water drawn in by osmosis
Curve crosses x axis; fluid inside cylinders and sucrose solution are isotonic = have same wate concentration
Points below x axis; water concentration of sucrose solutions lower than in the cylinders. Cylinders lose water, so mass decreases

Question 35

What are chromosomes

Answer 35

Coiled up lengths of DNA molecules. A diploid cell has two copies of each chromosome

Question 36

Whats the cell cycle

Answer 36

Body cells in multicellular organisms undergo the cell cycle

It’s mitosis and cytokinesis, and then interphase
Mitosis: stage of cell cycle when the cell divides. Organisms use mitosis to grow or replace damaged cells, or to asexually reproduce. Mitosis produces two genetically identical diploid cells.
Interphase: DNA is spread out in long strings, cell growing to increase number of sub cellular structures. DNA duplicates and forms x shaped chromosomes (with identical left and right arms)

Question 37

Describe what happens in each cell of the cell cycle

Answer 37

Interphase: DNA duplicates forming x-shaped chromosomes
Mitosis and cytokinesis:
Mitosis:
1 Prophase: chromosomes condense, lie free in cytoplasm as membrane around nucleus breaks down
2 Metaphase: chromosomes form a line at centre of cell (equator)
3 Anaphase: Cell fibres (formed by centrioles) pull chromosomes apart at the centromeres (middle bits of chromosomes), each arm (chromatid) of each chromosome go to opposite ends of cell
4 Telophase: Membranes form around each of the sets of chromosomes (these become nuclei of new cells)
Cytokinesis: Before Telophase ends cytoplasm and cell membrane divide to form two separate ends

Question 38

Whats equation to calculate number of cells after multiple divisions of a cell by mitosis

Answer 38

Number of cells = 2^n, n being the number of divisions by mitosis

Question 39

What’s ‘cell growth’ defined as

Answer 39

An increase in size or mass. All growth in animals is done by cell division, plants grow by cell elongation, with cell division happening at tips of roots and shoots.

Question 40

What’s cell differentiation?

Answer 40

Cell changes to become specialised, allowing multicellular organisms to work more efficiently.

Question 41

On a growth percentile chart, what does the 50th percentile for eg weight tell you?

Answer 41

Shows weight that 50% of babies will have reached at a certain age

Question 42

What are stem cells? What are the different types?

Answer 42

Undifferentiated cells. Can divided by mitosis to become new cells that then dissociate.
Embryonic stem cells = found in embryos, have potential to divide and become any type of cell. Essential for growth and development of organisms
Adult stem cells = only found in certain places, eg bone marrow. Can only produce certain cell types, use to replace damaged cells
In plants, stem cells found in meristem tissue, which is found in areas of plant that are growing. Can divide into any cell type.

Question 43

What’s the nervous system made of?

Answer 43

Neurones (nerve cells)

Question 44

What are sensory receptors?

Answer 44

Group of cells that detect stimulus, a change in environment. Different receptors detect different stimulus. When stimulus detected by receptors, it’s converted to a nervous electrical impulse, sent along sensory neurones to CNS

Question 45

What’s the CNS made of

Answer 45

CNS = central nervous system, made of brain and spinal cord. It coordinates response, as impulses travel through CNS along relay neurones. CNS sends information to an effector (muscle or gland) along motor neurone. Effector responds accordingly

Question 46

Whats reaction time?

Answer 46

Time taken to respond to stimulus

Question 47

Outline the overall path of the CNS

Answer 47

Stimulus > receptor > sensory neurone > CNS > motor neurone > effector > response

Question 48

What are neurones

Answer 48

All neurones have cell body, nucleus and sub cellular structures. Cell body has extensions connected to other neurones.
Neurones are long to speed up the impulse travel. One neurone faster than many small connected neurones

Question 49

What do dendrites and dendrons do?

Answer 49

Carry nerve impulses towards cell body

Question 50

What are axons?

Answer 50

They Carry impulses away from cell body

Some axons surrounded by myelin sheath, which acts as an electrical insulator, speeding up the electrical impulse

Question 51

What’s a sensory neurone?

Answer 51

1 long dendrologisch carries nerve impulses from receptor cells to cell body (located in middle of neurones), 1 short axon carries impulses from cell body to CNS

Question 52

What’s a motor neurone?

Answer 52

Many short dendrites carry nerve impulses from CNS to cell body, 1 long axon carries impulses from cell body to effector cells

Question 53

What’s a relay neurone

Answer 53

Many short dendrites carry nerve impulses from sensory neurones to the cell body. An axon carries nerve impulses from cell body to motor neurones

Question 54

What’s a synapse

Answer 54

A connection between two neurones.

Question 55

How are nerve signals transferred

Answer 55

By neurotransmitter chemicals. They diffuse across the gap, then set off new electrical signal in the next Neurone

Question 56

What’s a reflex? What’s a reflex arc?

Answer 56

Reflex is an automatic response to stimuli

A reflex arc is a passage of information in a reflex, from receptor to effector

Question 57

Describe the five steps of a ‘reflex arc’

Answer 57

1 stimulus detected, impulses sent along sensory neurone to a relay neurone in the CNS
2 impulses trigger release of neurotransmitters when they reach a synapse between sensory neurone and relay neurone. Neurotransmitters cause impulses to be sent along relay neurone
3 when impulse reaches synapse between relay neurone and motor neurone, neurotransmitters are released and cause impulses to be sent along the motor neurone
4 impulses travel along motor neurone to effector
5 effector reacts accordingly

Question 58

Describe the path of the eye protection reflex

Answer 58

Light receptors in eye detect bright light, send message along sensory neurone to brain
Message travels along relay neurone to a motor neurone, which tells circular muscles in iris to contract

Question 59

What’s sexual reproduction.

Answer 59

When genetic information from two organisms is combined to produce offspring genetically different to either parent. During sexual reproduction, father and mother produce gametes, which are haploid reproductive cells

Question 60

What’s a haploid cell and whats a diploid cell?

Answer 60

Haploid = half number of chromosomes, 23 chromosome cell 
Diploid = 46 chromosome cell

Question 61

What’s a zygote

Answer 61

A diploid, fertilised egg. Made by gametes fusing at fertilisation. Zygote undergoes mitosis to turn into an embryo, which receives a mixture of chromosomes, meaning mixed genes, meaning mixed characteristics

Question 62

In plants where are the gametes found?

Answer 62

Male gametes found in Pollen, female in ovaries at base of stigma

Question 63

What’s purpose of meiosis.

Answer 63

To produce 4 gametes which are genetically varied.

It produces 4 haploid daughter cells, which are called gametes. Each gamete has a single set of chromosomes. These gametes are all genetically different

Question 64

What is DNA?

Answer 64

DNA is repeating units of nucleotides, which are made of sugar, a phosphate and bases (AGCT). DNA molecule has 2 strands coiled together in a double helix, where each base links to a base on the opposite stand in the helix. These complementary base pairs are joined together by weak hydrogen bonds

DNA strands are polymers, meaning made up of many repeating units joined together. Each unit contains 1 of the 4 bases

Question 65

What are the four bases each unit in a DNA strand contains.

Answer 65

Adenine, Thymine, Cytosine, Guanine

A and T are complementary base pairs
C and G are complementary base pairs

Question 66

What are chromosomes?

Answer 66

Long coiled up molecules of DNA found in the nucleus of eukaryotic cells. There are 23 matched pairs of chromosomes in every human body cell

Question 67

What’s a gene

Answer 67

A section of DNA which codes for a particular protein. sequence of bases in gene determine what protein is produced

Question 68

What’s the genome?

Answer 68

All of an organisms DNA

Question 69

What experiment can we do to see DNA?

Answer 69

Extracting DNA from fruit cells. Use detergent to break down cell membranes. Salt makes DNA stick together. Filter and add ice cold alcohol and DNA will come out of solution because it’s not soluble in cold alcohol.

Question 70

What are alleles?

Answer 70

Different variations of genes. You have two alleles of every gene, one on each chromosome in a pair

Question 71

What does homozygous and heterozygous mean?

Answer 71

Homozygous for a trait means organism has two alleles for a particular gene
Heterozygous means two alleles for a gene are different. Dominant alleles will overrule the recessive alleles

Question 72

What’s a phenotype and what’s a genotype

Answer 72

Phenotype is what characteristics an organism displays

Genotype is what combination of alleles you have

Question 73

What’s monohybrid inheritance? How can you show it?

Answer 73

The inheritance of a single characteristic. Can use a punnet square or monohybrid cross to show monohybrid inheritance

Question 74

What’s a family pedigree

Answer 74

A family tree of genetic disorders. A carrier is someone who has 1 copy of the recessive allele, so don’t develop the disorder. Family pedigree should include a key.

Question 75

What are the two possible types of variation within a species

Answer 75

Genetic variation: caused by organisms having different alleles leading to difference in phenotypes
Environmental variation: caused by the environment, ie the conditions in which the organisms live
Environmental variation also known as ‘acquired characteristics’

Question 76

What’s a mutation?

Answer 76

Changes to the base sequence of DNA. A mutation in a gene makes an allele. New combinations of alleles may interact to produce new phenotypes. A neutral mutation means a mutation that has no effect on the phenotype

Question 77

What’s the human genome project?

Answer 77

Thousands of scientists collaborated to find every single human gene. Complete map of human genome completed in 2003. Scientists must not discover what all these genes do.

Used for prediction and prevention of diseases, testing and treatment for inherited disorders. Helps develop new and better medicines.

Question 78

What are selection pressures

Answer 78

Factors that affect the organisms chance of surviving and reproducing

Question 79

What’s natural selection?

Answer 79

An organisms characteristics are advantageous to its survival, therefore its more likely to survive and pass on these alleles to offspring. Over time, many in the species will end up with this characteristic. This is evolution

Question 80

What’s a fossil defined as

Answer 80

Any trace of an animal or plant that lived a considerable amount of time ago. Arranging fossils in chronological order shows gradual changes in organisms, which shows how the species change and develop over time.

Question 81

What are the three example pieces of hominid fossil evidence for human evolution over millions of years

Answer 81

Ardi - ardipithecus ramidus species - 4.4 million years old
Mixed ape and human features. Walked upright without hands for help. Climbed lots.
Lucy - Australopithecus Afarensis - 3.2 million years old
Mix human and ape features, more human. Didn’t climb much. Walked upright
Turkana Boy - homoerectus - 1.6 Million years old
Mix human + ape features, even more human. Walked upright. Humanoid figure.

Question 82

How do you calculate brain size of a fossil

Answer 82

Calculate its cranial capacity, the space taken up by brain in the skull

Question 83

Three way scientists work out age of hominid fossils or ancient tools

Answer 83

Look at structural features + what’s found around it
Use carbon - 14 dating, as stone tools usually found with a carbon containing material
Use stratigraphy, the study of rock layers

Question 84

What are the parts of the five kingdom classification system

Answer 84

0.5 = Domain (Archaea, Bacteria or Eukarya)
1 = kingdom; animals, plants, fungi, prokaryotes (archaea or bacteria), protists
2 = phylum
3 = class
4 = order
5 = family
6 = genus
7 = species

Question 85

What are protists?

Answer 85

Eukaryotic single celled organisms

Question 86

How are all organisms classified?

Answer 86

Classified by characteristics and cell structure, the more similar the sequence of DNA bases in different organism’s genes, the more closely related they are.
All organism’s divided into 3 domains:
1 Archaea; organisms that look similar to bacteria but have different genetic sequences to bacteria
2 Bacteria; contains true bacteria
3 Eukarya; a broad range of organisms including fungi, plants, animals and protists

Question 87

What’s selective breeding

Answer 87

When humans artificially select the plants or animals that are going to breed so the genes for particular characteristics remain in the population. This is continued over several generations so desired trait gets stronger and stronger.

Important in agriculture, medical research. However reduces gene pool through inbreeding

Question 88

What’s genetic engineering? Describe the process

Answer 88

Genetic engineering = modifying an organisms genome to introduce desirable characteristics
1 DNA want to insert cut out using restriction enzyme. Vector DNA cut open using same restriction enzyme
2 Vector DNA + inserting DNA both have sticky ends. Mix together with ligase enzyme.
3 Ligases join pieces of DNA together to make recombinant DNA
4 Recombinant DNA inserted into other cells, which can now use the gene you inserted to make the desired protein

Used in agricultures and medicine

Question 89

What are restriction enzymes and what are ligase enzymes?

Answer 89

Restriction enzymes recognise specific sequences of DNA and cut the DNA of these points, leaving DNA with sticky ends at cutting points

Ligase enzymes are used to join two pieces of DNA together at sticky ends

Question 90

What’s recombinant DNA?

Answer 90

Two different bits of DNA stuck together

Question 91

What’s a vector? What are plasmids?

Answer 91

Vector = something used to transfer DNA into a cell

Plasmids = small, circular molecules of DNA, transferred between bacteria

Question 92

How do viruses work?

Answer 92

They insert DNA into organisms they want to infect. A virus is a protein coat around a strand of genetic material, they infect specific host cells in order to reproduce

Question 93

What is health defined as? What’s an infirmity?

Answer 93

Health means physical, mental and social wellbeing.

Infirmity is a weakness of frailness, usually caused by old age

Question 94

What’s a disease? What are the types of diseases?

Answer 94

A disease is a condition where part of an organism doesn’t function properly

Communicable diseases; can be spread between individuals
Non communicable diseases; can’t be transmitted between individuals

Being infected by one disease can make you more susceptible to others

Question 95

What’s susceptible mean?

Answer 95

Increased chance of getting a specific disease

Question 96

What are pathogens?

Answer 96

Organisms such as viruses, bacteria, fungi or protists that cause communicable diseases

Question 97

Describe Cholera, Tuberculosis, Malaria and Chalara Ash Dieback

Answer 97

Cholera; caused buy bacteria in contaminated water sources. Causes diarrhoea.
Tuberculosis; caused by bacterium in air, causes coughing + lung damage
Malaria; cause by protists, mosquitoes are animal vectors. Damage red blood cells.
Chalara Ash Dieback; fungus which infects Ash Trees, carried in air. Causes bark lesions.

Question 98

What’s an STI? Describe two examples of STIs.

Answer 98

Sexually transmitted infections, spread though sexual contact

HIV or Human Immunodeficiency Virus; infects and kills white blood cells, eventually causing AIDs (hosts immune system fails) spread via bodily fluids. Medication can reduce risk

Chlamydia is a bacterial infection. Bacterium which can only reproduce inside host cells. Can result in infertility. Spread by genital contact.

Question 99

What are the two types of defence against pathogen entry?

Answer 99

Physical barriers (skin, hair, mucus) and chemical barriers (hydrochloride acid in stomach, chemical lysozyme produced in eyes)

Question 100

Describe How does immune system work

Answer 100

It destroys pathogens in the body. White blood cells travel through body in blood stream:
B-lymphocytes; type of white blood cell. Involved in specific immune response.
B-lymphocytes detect antigen on pathogen and starts producing proteins called antibodies specific to that pathogen, which bind to the pathogen. Antibodies then produced rapidly, flowing around body to find all similar pathogens

Question 101

What’s specific immune response

Answer 101

The immune response to a specific pathogen

Question 102

What’s are antigens?

Answer 102

Unique molecules on surface of every pathogen

Question 103

How does immunisation work

Answer 103

Memory lymphocytes produced in response to a foreign antigen. They remain in the body and ‘remember’ a specific antigen, so a secondary immune response will be faster and stronger
Immunisation involves injecting dead or inactive antigenic (carries antigens) pathogens. Body makes antibodies, antigens trigger memory lymphocytes to be made.

Question 104

What do antibiotics do?

Answer 104

They treat bacterial infections by inhibiting processes in bacterial cells and not the host organism

Question 105

Describe the stages of developing a drug

Answer 105

• Preclinical testing:
  1 drug tested on human cells + tissue (doesn’t work if drug affects whole or multiple body systems)
  2 Drug tested on live animals
• Clinical testing
  1) Tested on human volunteers in a clinical trial
• tested on healthy volunteers for side effects
• tested on people suffering from illness, optimum dosage (most effective with fewest side effects) found
• Blind clinical trial (allows for placebo effect)
• approval by a medical agency

Question 106

What are risk factors?

Answer 106

Factors linked to increase of likelihood a person will develop a disease. Some risks factors are unavoidable, eg age/gender. Some risk factors caused by lifestyle choices, eg smoking; nicotine increases bp, damaging artery walls,restricting blood flow and increased risk of blood clots, so increased likelihood of developing cardiovascular disease

Non communicable diseases caused by multiple risk factors interacting

Question 107

What lifestyle choices lead to increased risk factors of; scurvy, obesity, liver damage, type 2 diabetes

Answer 107

Too many/few nutrients > malnutrition > disease eg scurvy
Not enough exercise + diet high in fat and sugar > take in more energy than used >obesity
Too much alcohol > liver disease + permanent liver damage
Obesity > type 2 diabetes + cardiovascular disease

Question 108

What’s BMI and hows it measured?

Answer 108

Body mass index, helps decide if someone is underweight, normal, overweight or obese
BMI = weight (kg) / height (m)^2

BMI not always accurate to measure if someone’s obese, because muscle weighs more than fat

Question 109

Equation for waist to hip ratio

Answer 109

Waist to hip ratio = waist circumference / hip circumference

Abdominal obesity = high waist to hip ratio. Greater risk of developing obesity related health problems

Question 110

What’s cardiovascular disease?

Answer 110

Any disease associated with heart + blood vessels

Question 111

What are arteries?

Answer 111

Blood vessels that carry blood away from the heart

Question 112

What’s cholesterol?

Answer 112

A fatty substance, used to make things like cell membranes. Too much of it in blood leads to fatty deposits in arteries in places the arteries have been damaged, restricting blood flow and also triggering blood clots to form, blocking blood flow completely

Question 113

What’s a heart attack? What’s a stroke?

Answer 113

Heart attack = artery supplying heart muscle clots, depriving heart of oxygen
Stroke = blood clots in brain, deprives brain of oxygen

Question 114

What are responses you should take to heart attack or stroke?

Answer 114

Lifestyle changes; diet low in saturated fat, exercise regularly,
Drugs:
Statins - reduce cholesterol, slow rate fatty deposits form, cause aching muscles and possible permanent liver damage
Anticoagulants- makes blood clots less likely to form, can cause excessive bleeding if person injured
Antihypertensives- reduce blood pressure, prevents damage to blood vessels, reduce risk of fatty deposits forming. Can cause headaches and fainting.
Surgical procedures:
Coronary bypass surgery - piece of healthy vessel used to bypass blocked section of blood vessel
Stents - tubes inserted into artery, keep them open. Causes scar tissue over time that narrows artery and blood can clot on the stent
Heart replaced by donor heart

Question 115

What’s an independent variable?
Dependant variable?
Control variable?

Answer 115

Independent - the thing we change in experiment
Dependant - the thing we measure
Control - remains the same