GCSE AQA Biology

Tissue

A group of cells working together to perform a function E.g. Skin, muscle, liver, brain

Cell

The building blocks of all living organisms. Cells can be prokaryotic or eukaryotic

Eukaryote

Plant and Animal cells are eukaryotic cells as they have a cell membrane, cytoplasm and a nucleus

Prokaryote

Bacterial cells are prokaryotic cells as they are very very small have a cell wall around their cell membrane and they do not have a nucleus

Cell Membrane

An envelope that surrounds the cell and lets substances in and out

Nucleus

Contains DNA and controls the cells activity

Cytoplasm

The jelly centre of the cell which holds the sub-cellular structures and is where all the chemical reactions happen

Cell Wall

Only found in plant cells and bacterial cells. In plant cells the cell wall is made of cellulose

Single DNA Loop

In prokaryotic cells (bacteria) the DNA is found as a single loop

Plasmid

A small ring of DNA found in prokaryotic cells (bacteria)

Mitochondria

This is where respiration happens in cells which gives the cells energy

Chloroplasts

Only found in plant cells, these contain chlorophyll and are the sites of photosynthesis and are green

Ribosomes

Where proteins are made

Vacuole

Found in plant cells, these contain cell sap which is sugar and water

Specialisation

When a cell becomes specialised for a specific job. E.g. liver cells, heart cells, sperm cells.

Organ

An organ is made up of different tissues and has a specific job. E.g. the heart's job is to pump blood around the body.

Organ System

An organ system contains more than one organ working together. E.g. the cardiovascular system consists of the heart, lungs and blood.

Sperm Cells

A sex cell produced in the testes which carries genetic information from the male to the female egg. They have a tail to swim, lots of mitochondria for energy, and an acrosome which contains enzymes to digest through the egg membrane.

Nerve Cells

These are special cells which carry electrical impulses along a long structure called an axon. The brain is made of nerve cells. They are also known as neurones.

Muscle Cells

These make up muscle tissue and contract and relax to create movement. There are three types - smooth muscle, cardiac muscle and skeletal muscle. Muscle cells contain a lot of mitochondria as they need lots of energy

Root Hair Cell

A cell found in the roots of a plant which has a long part sticking out to increase the surface area for absorbing water and minerals. They also have NO chloroplasts as they do not photosynthesise

Xylem Cell

A cell that makes up xylem tissue in a plant. Xylem tissue is like a long tube that carries water from the roots of a plant to the leaves

Phloem Cell

A cell that makes up phloem tissue in a plant. Phloem tubes allow food like sugars to be moved around a plant.

Differentiation

The process that cells go through to become specialised.

Light Microscope

A microscope that uses light and a series of lenses to magnify things.

Electron Microscope

A microscope that fires electrons at objects and then creates a very detailed image.

What 3 organelles do plant cells have that animal cells don't? what do they do? (3)

- Chloroplast - absorb light for photosynthesis

- vacuole - stores cell sap - structure and support (keeps cell rigid)

- Cell wall - made of cellulose - structure and support

What are 4 key features of bacterial cells? (4)

- Small size

- Cell wall

- Cell membrane

- loop of DNA (no nucleus)

describe how the body is organised starting at cells (3)

Cells - Tissue - Organs - Organ System

Meristems

Unspecialised cells (stem cells) in plants

Actual = Image / Magnification

Calculating actual size of a cell

1000

The number of micrometres in a mm

Specialised cells

As an organism develops, cells differentiate to form different types of cells.

As a cell differentiates:

- it may change shape

- different sub-cellular structures develop to let it to carry out a specific function.

Include cells such as sperm, nerve and muscle cells.

Sperm cell

Tail: to propel the sperm to fertilise the egg.

Mitochondria: sperm have many of these cell components, which are the major site of respiration, to provide energy for their journey.

Nucleus: contains only one set of the genetic material.

Acrosome: contains enzymes to allow the sperm to penetrate the outer layer of the egg.

Muscle cell

Contains:

- nucleus

- many mitochondria for energy

- protein fibres that can contract

Motor neurone

Contains:

- dendrites

- cell body

- axon

- sheath (acts as an insulator)

Xylem cell

The cells are arranged end to end but the end walls break down to form hollow tubes.

The cell wall of the cell is strengthened by a substance called lignin.

Phloem cell

The end wall of the cells allow sugars through but support the tubes.

The cells are arranged end to end into tubes.

Contain companion cells.

Root hair cell

Lots of mitochondria for active transport of minerals.

Long projection to increase the surface area to absorb water and minerals.

Tissue

A group of cells with a similar structure and function, which all work together to do a job.

Examples of tissues

- muscle tissue contracts to produce movement

- glandular tissue produces substances such as enzymes and hormones

- epithelial tissue covers organs

Organs

Groups of different tissues, which all work together to perform a specific job.

Each may contain several tissues.

Stomach

An organ that contains:

- muscle tissue that contracts to churn the contents

- glandular tissue to produce digestive juices

- epithelial tissue to cover the outside and inside of the stomach

Organ systems

Groups of organs working together to do a particular job.

The digestive system is an example of it, in which several organs work together to digest and absorb food.

Lots of them work together to make an organism.

The digestive system

Includes:

- mouth

- oesophagus - pushes food down to stomach

- liver

- stomach

- pancreas

- gall bladder

- large intestine

- small intestine

- rectum

- anus

Enzymes

They are biological catalysts - they speed up chemical reactions in living organisms.

They have a number of properties:

- they are all large proteins.

- each of it catalyses a specific reaction.

Active site

A space within the protein molecule of the enzyme.

Optimum

Where enzymes work best at a specific temperature and pH.

Lock and key theory

A model used to explain how enzymes work: the chemical that reacts is called the substrate (key) and it fits into the enzyme's active site (lock).

Denaturing

Where high temperature and extremes of pH make enzymes change shape.

The enzyme cannot work once it has been denatured, because the substrate cannot fit into the active site - the lock and key no longer fit together.

Digestive enzymes

Produced by specialised cells in glands and in the lining of the gut:

- the enzymes pass out of the cells into the digestive system.

- they come into contact with food molecules.

- they catalyse the breakdown of large insoluble food molecules into smaller soluble molecules.

Examples of digestive enzymes

Protease: digest proteins

Lipase: digest lipids (fats and oils)

Carbohydrase: digest carbohydrates

These are to produce smaller molecules that can be easily absorbed into the bloodstream.

Amylase

- is produced in the salivary glands and the pancreas

- is a carbohydrase that breaks down starch into sugar (maltose).

Used to build new carbohydrates.

Protease

- is produced in the stomach, pancreas and small intestine

- breaks down proteins into peptides or amino acids.

Used to build new proteins.

Lipase

- is produced in the pancreas and small intestine

- breaks down lipids (fats) into fatty acids and glycerol.

Used to build new lipids.

Bile

It is a liquid made in the liver and stored in the gall bladder.

It is alkaline to neutralise hydrochloric acid from the stomach.

It also emulsifies fat to form small droplets, increasing the surface area for enzymes to act on.

The alkaline conditions and large surface area increase the rate at which fat is broken down by lipase.

Does not contain any enzymes, so it does not digest fat molecules. It just breaks up fat droplets into smaller ones.

Good health

A state of physical and mental wellbeing.

Disease

Caused by part of the body not working properly.

This can affect physical and / or mental health.

Can be divided into two main types:

- communicable

- non-communicable

Examples of how different diseases can interact with each other

- viruses infecting cells can be the trigger for cancers, such as cervical cancer.

- diseases of the immune system mean that an individual is more likely to catch infectious diseases, e.g. people with HIV are more likely to get tuberculosis.

- immune reactions triggered by a pathogen can cause allergies, such as skin rashes and asthma.

- if a person is physically ill, this can lead to depression and mental illness.

- poor diet, stress, and difficult life situations can increase the likelihood of developing certain diseases.

Casual mechanism

The process by which a cause brings about an effect.

Risk factor

They make it more likely that a person will develop a certain disease.

Non-communicable diseases are often caused by the interaction of a number of factors.

They can be:

- aspects of a person's lifestyle

- substances in the person's body or environment

Examples of diseases and their proven risk factors

Cardiovascular disease: lack of exercise / smoking / high intake of saturated fat

Type 2 diabetes: Obesity

Liver and brain damage: Excessive alcohol intake

Lung diseases, including lung cancer: Smoking

Skin cancer: Ionising radiation, e.g. UV light

Low birth weight in babies: Smoking during pregnancy

Brain damage in babies: Excessive alcohol intake during pregnancy

Coronary heart disease

Layers of fatty material build up inside the coronary arteries and narrow them.

Treatment for it include:

- stents to keep the coronary arteries open

- statins to reduce blood cholesterol levels and slow down the rate at which fatty materials build up

Heart valve disease

In some people, heart valves may become faulty, developing a leak or preventing the valve from opening fully.

Faulty valves can be replaced using biological or mechanical valves.

Treatments of heart failure

- a donor heart, or heart and lungs, can be transplanted

- artificial hearts can be used to keep patients alive while waiting for a heart transplant or to allow the heart to recover

- drugs such as clot-busting enzymes or warfarin are sometimes used to treat recovering patients, while statins can be given to lower cholesterol levels

Cancer

It is a non-communicable disease,

Scientists have identified lifestyle risk factors for some types of cancer, e.g. smoking, obesity, common viruses and UV exposure.

It is caused by uncontrolled cell division. This can form masses of cells called tumours.

There are two main types of tumours:

- benign tumours do not spread around the body

- malignant tumours spread, in the blood, to different parts of the body where they form secondary tumours

Epidermis

Covers the outer surfaces of the plant for protection.

Palisade mesophyll

The main site of photosynthesis in the leaf.

Spongy mesophyll

Air spaces between the cells allow gases to diffuse through the leaf.

Xylem vessels

Transports water and minerals through the plant, from roots to leaves. Also supports the plant.

Phloem vessels

Transports dissolved food materials through the plant.

Meristem tissue

Found mainly at the tips of the roots and shoots, where it can produce new cells for growth.

Wax cuticle

To protect the leaf without blocking out light.

Stomata

Allow the diffusion of gases in and out of the leaf and can be opened and closed by guard cells.

The role of the guard cell is to open and close stomata.

At night, the stomata is closed. This is because carbon dioxide is not needed for photosynthesis, so closing stomata reduces water loss.

When water is plentiful, guard cells take up water and bend. This causes the stomata to open, so gases for photosynthesis are free to move in and out of the stomata along with water from transpiration.

When water is scarce, losing water makes the stomata change shape and close. This stops the plant from losing more water through transpiration.

Transpiration

The loss of water from the leaves.

It helps to draw water up the xylem vessels from the roots.

Factors that affect the rate of transpiration

- an increase in temperature will increase the rate, as more energy is transferred to the water to allow it to evaporate

- faster air flow will increase the rate, as it will blow away water vapour allowing more to evaporate

- increased light intensity will increase the rate, as it will cause stomata to open

- an increase in humidity will decrease the rate as the air contains more water vapour, so the concentration gradient for diffusion is lower

Translocation

The movement of food through phloem tissue.

Blood

It is a tissue made of a liquid called plasma, which has three different components suspended to it:

- red _____ cells

- white _____ cells

- platelets

Transports various chemical substances around the body, such as the products of digestion, hormones, antibodies, urea and carbon dioxide.

Red blood cells

- contains haemoglobin, which binds to oxygen to transport it to lungs to the tissues and cells, which need it for respiration

- do not contain a nucleus, so there is more room for haemoglobin

- are very small, so they can fit through the tiny capillaries

- are shaped like biconcave discs, giving them a large surface area that oxygen can quickly diffuse across.

White blood cells

- help to protect the body against infection

- can change shape, so they can squeeze out the blood vessels into the tissues or surround and engulf microorganisms.

Platelets

Fragments of cells, which collect at wounds and trigger blood clotting.

Arteries

- take blood from your heart to your organs

- thick walls made from muscle and elastic fibres

Veins

- take blood from your organs to your heart

- thinner walls and valves to prevent backflow

Capillaries

- allow substances needed by the cells to pass out of the blood

- allow substances produced by the cells to pass into the blood

- narrow, thin-walled blood vessels

The heart

Pumps blood around the body in a double circulatory system.

Blood passes through it twice on each circuit.

There are four chambers in it:

- the left (pulmonary vein) and right atria (vena cava), which receive blood from veins

- the left (aorta) and right ventricles (pulmonary artery), which pump the blood out into arteries

Stages of the heart

Blood enters the heart through the atria.

The atria contract and force blood into the ventricles.

The ventricles then contract and force blood out of the heart.

Valves make sure the blood flows in the correct direction.

The natural resting heart rate is controlled by a group of cells located in the right atrium, which act as a pacemaker.

Artificial pacemakers are electrical devices used to correct irregularities in the heart rate.

Gaseous exchange

The heart sends blood to the lungs via the pulmonary artery.

Air obtained by breathing reaches the lungs through the trachea (windpipe).

The trachea divides into two tubes - the bronchi.

The bronchi divide to form bronchioles.

The bronchioles divide until they end in tiny air sacs called alveoli.

There are millions of alveoli and they are adapted to be very efficient at exchanging oxygen and carbon dioxide:

- they have a large, moist surface area

- they have a very rich blood supply

- they are very close to the blood capillaries, so the distance for gases to diffuse is small.

The blood is taken back to the lungs through the pulmonary vein.

Health?

Health is the state of physical and mental well-being.

What is a pathogen?

A microorganism that can cause disease

Pathogens can cause communicable diseases, what is a communicable disease? Hence, what is a non-communicable disease?

Communicable - An infectious disease

List 4 different types of pathogens.

-Virus

-Fungi

-Bacteria

-Protists

Give some examples of viruses also, what does a virus look like (picture a diagram in head)?

-Measles

-Rubella

Give an example of a Fungi and what does a fungi pathogen look like?

-Athlete's foot

Give an example of bacteria and what does bacteria look like (picture in head)?

-food poisoning (salmonella)

Give an example of Protists and what does it look like (picture in head)?

-Malaria

(image not completely accurate. Outline is similar)

List 3 facts about bacteria

-very small cells

-reproduces rapidly

can produce toxins that damage your cells and tissues

List 2 facts about viruses and then explain what a virus does inside the body to make people feel ill.

-viruses are not cells

-they reproduce rapidly

-the virus invades the body cell, copies of the virus are made, new viruses burst out of the cell. They destroy cells and tissues thus causing us to feel ill.

List 3 facts about Protisits

-all Eukaryotes

-majority are single-celled

-often transferred by vector

List 4 facts about fungi

-some single-celled

-or body made of hyphae (thread-like structures)

-this hyphae can grow and penetrate skin, pants surfaces. causes diseases

-can produce spores

List the way diseases can spread, giver further examples of these ways.

-Air; Colds, TB

-Contaminated water; Cholera

-Body fluid; AIDS, Chicken Pox, Cholera

-Mother to unborn baby; Rubella

-Vector;Insects or rats

-Direct contact; Chicken pox, Athlete's foot,

Rubella

-Cuts/Sharing needles; AIDS, Tetanus

-Contaminated food; food poisoning

-Contaminated blood; AIDS