Biology paper 1- foundation

Created by

Emily

Cards (72)

Microscopes 
Normal light microscope can see cells and nucleus, electron microscope can see subcellular structures in more detail
Calculating cell size 
1. Measure image size
2. Divide by magnification
Eukaryotic cells 
Have a nucleus containing DNA
Prokaryotic cells 
Do not have a nucleus, DNA is in a ring called a plasmid
Cell structures 
Cell membrane
Cell wall (in plants and bacteria)
Cytoplasm
Mitochondria
Ribosomes
Chloroplasts (in plants)
Bacterial binary fission 
1. Number doubles every 10 minutes
2. Practical: Grow culture on agar plate, use aseptic technique
3. Calculate culture size from area or initial drop
Diploid cells 
Have 23 pairs of chromosomes
Haploid cells 
Have 23 chromosomes (not in pairs)
Mitosis 
1. Genetic material duplicated
2. Nucleus breaks down
3. Chromosomes pulled to opposite sides
4. New nuclei form
Specialised cell types 
Nerve
Muscle
Root hair
Xylem
Phloem
Stem cells 
Unspecialised cells that can differentiate into different cell types
Diffusion 
Movement of molecules/particles from high to low concentration, down concentration gradient, passive process
Osmosis 
Diffusion of water across a semi-permeable membrane
Practical: Osmosis 
1. Cut potato cylinders
2. Weigh and place in sugar solutions
3. Reweigh after a day
4. Calculate % change in mass
5. Plot against sugar concentration to find no change point
Active transport 
Using energy to move substances against a concentration gradient
Digestive system processes 
Acid in stomach
Bile and enzymes in small intestine
Nutrients absorbed by villi
Enzymes 
Biological catalysts that are specific to certain substrates, work on a lock and key principle
Practical: Enzyme activity 
1. Mix amylase and starch
2. Test for starch every 10 seconds with iodine
3. Plot time to complete reaction against temperature or pH
4. Find optimum conditions
Food tests 
Iodine for starch
Benedict's solution for sugars
Biuret's reagent for proteins
Ethanol for lipids
Breathing and gas exchange
1. Air moves down trachea to alveoli
2. Oxygen diffuses into blood
3. Carbon dioxide diffuses out
Double circulatory system 
Blood enters heart twice per cycle, deoxygenated blood to lungs, oxygenated blood to body
Blood vessel types 
Arteries (thick walls, narrow lumen)
Veins (thin walls, valves)
Capillaries (one cell thick)
Coronary arteries 
Supply heart muscle with oxygen
Non-communicable diseases 
Caused by internal factors, e.g. cardiovascular disease, cancer, autoimmune conditions
Communicable diseases 
Caused by external pathogens, e.g. infectious diseases
Coronary artery 
Delivers blood to the heart muscle to supply oxygen
Coronary heart disease (CHD) 
Occurs when coronary arteries are blocked by fatty deposits, causing a heart attack
Stents 
Little tubes inserted into blood vessels to keep them open and allow blood flow
Statins 
Drugs that reduce cholesterol and fatty deposits
Heart valve replacement 
Artificial valves can replace faulty ones to prevent backflow
Blood components 
Plasma, red blood cells, white blood cells, platelets
White blood cells 
Combat infections
Platelets 
Clump together to clot wounds and stop bleeding
Cardiovascular disease (CVD) 
Non-communicable disease caused by factors within the body
Other non-communicable diseases 
Autoimmune conditions, allergic reactions, cancer
Communicable disease 
Caused by a pathogen that enters the body, leading to viral, bacterial or fungal infection
Type 2 diabetes 
Caused by obesity and too much sugar
Risk factors for heart disease
Bad diet, smoking, lack of exercise, alcohol
Carcinogen 
Anything that increases the risk of cancer, e.g. ionizing radiation
Cancer 
Result of damaged cells dividing uncontrollably, leading to tumours