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AQA TRILOGY Bio Checklist: Cell, Org, Infection, Response, Bioenergetics, Exams of Biology

Cardiff UniversityBiology

A student checklist for the aqa trilogy biology paper 1 exam from 2016. The checklist covers various topics including cell biology, organisation, infection and response, and bioenergetics. It includes descriptions of key concepts, required practicals, and questions to help students prepare for the exam. Topics covered in cell biology include cell structure, division, and transport. In organisation, students will learn about the levels of organisation in living organisms, digestive systems, and the structure and function of the heart and lungs. Infection and response topics include communicable diseases, defences against pathogens, and vaccination. Lastly, bioenergetics covers photosynthesis and respiration.

What you will learn

  • What are the features of bacterial (prokaryotic) cells?
  • Describe the processes that happen during the cell cycle, including mitosis.
  • What is the role of stem cells in plant and animal systems?

Typology: Exams

2021/2022

Uploaded on 09/12/2022

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Personalised Learning Checklists AQA TRILOGY Biology Paper 1
AQA TRILOGY Biology (8464) from 2016 Topic T4.1 Cell biology
Topic
Student Checklist
R
A
G
4.1.1 Cell structure
Use the terms 'eukaryotic' and 'prokaryotic' to describe types of cells
Describe the features of bacterial (prokaryotic) cells
Demonstrate an understanding of the scale and size of cells and be able to make order of magnitude
calculations, inc standard form
Recall the structures found in animal and plant (eukaryotic) cells inc algal cells
Use estimations and explain when they should be used to judge the relative size or area of sub-cellular
structures
Required practical 1: use a light microscope to observe, draw and label a selection of plant and animal
cells
Describe the functions of the structures in animal and plant (eukaryotic) cells
Describe what a specialised cell is, including examples for plants and animals
Describe what differentiation is, including differences between animals and plants
Define the terms magnification and resolution
Compare electron and light microscopes in terms of their magnification and resolution
Carry out calculations involving magnification using the formula: magnification = size of image/
size of real object -inc standard form
Required practical 2: investigate the effect of antiseptics or antibiotics on bacterial growth using agar
plates and measuring zones of inhibition
4.1.2 Cell Division
Describe how genetic information is stored in the nucleus of a cell (inc genes & chromosomes)
Describe the processes that happen during the cell cycle, including mitosis (inc recognise and describe
where mitosis occurs)
Describe stem cells, including sources of stem cells in plants and animals and their roles
Describe the use of stem cells in the production of plant clones and therapeutic cloning
Discuss the potential risks, benefits and issues with using stem cells in medical research/treatments
(inc diabetes and paralysis)
4.1.3 Transport in cells
Describe the process of diffusion, including examples
Explain how diffusion is affected by different factors
Define and explain "surface area to volume ratio", and how this relates to single-celled and
multicellular organisms (inc calculations)
Explain how the effectiveness of an exchange surface can be increased, inc examples of adaptations for
small intestines, lungs, gills roots & leaves
Describe the process of osmosis (inc calculation of water uptake & percentage gain and loss of mass of
plant tissue)
Required practical 3: investigate the effect of a range of concentrations of salt or sugar solutions on the
mass of plant tissue
Describe the process of active transport, including examples - gut and roots
Explain the differences between diffusion, osmosis and active transport
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AQA TRILOGY Biology (8464) from 2016 Topic T4.1 Cell biology

Topic Student Checklist R A G 4.1.1 Cell structure Use the terms 'eukaryotic' and 'prokaryotic' to describe types of cells Describe the features of bacterial (prokaryotic) cells Demonstrate an understanding of the scale and size of cells and be able to make order of magnitude calculations, inc standard form Recall the structures found in animal and plant (eukaryotic) cells inc algal cells Use estimations and explain when they should be used to judge the relative size or area of sub-cellular structures Required practical 1: use a light microscope to observe, draw and label a selection of plant and animal cells Describe the functions of the structures in animal and plant (eukaryotic) cells Describe what a specialised cell is, including examples for plants and animals Describe what differentiation is, including differences between animals and plants Define the terms magnification and resolution Compare electron and light microscopes in terms of their magnification and resolution Carry out calculations involving magnification using the formula: magnification = size of image/ size of real object - inc standard form Required practical 2: investigate the effect of antiseptics or antibiotics on bacterial growth using agar plates and measuring zones of inhibition 4.1.2 Cell Division (^) Describe how genetic information is stored in the nucleus of a cell (inc genes & chromosomes) Describe the processes that happen during the cell cycle, including mitosis (inc recognise and describe where mitosis occurs) Describe stem cells, including sources of stem cells in plants and animals and their roles Describe the use of stem cells in the production of plant clones and therapeutic cloning Discuss the potential risks, benefits and issues with using stem cells in medical research/treatments (inc diabetes and paralysis) 4.1.3 Transport in cells Describe the process of diffusion, including examples Explain how diffusion is affected by different factors Define and explain "surface area to volume ratio", and how this relates to single-celled and multicellular organisms (inc calculations) Explain how the effectiveness of an exchange surface can be increased, inc examples of adaptations for small intestines, lungs, gills roots & leaves Describe the process of osmosis (inc calculation of water uptake & percentage gain and loss of mass of plant tissue) Required practical 3: investigate the effect of a range of concentrations of salt or sugar solutions on the mass of plant tissue Describe the process of active transport, including examples - gut and roots Explain the differences between diffusion, osmosis and active transport

AQA TRILOGY Biology (8464) from 2016 Topic T4.2 Organisation

Topic Student Checklist R A G 4.2. Principles of organisation & 4.2.2 Animal tissues, organs and organ systems Describe the levels of organisation within living organisms Describe the digestive system and how it works as an organ system (from KS3) Describe basic features of enzymes (inc rate calculations for chemical reactions) Describe the lock and key theory as a model of enzyme action and explain how the shape a of the active sites makes the enzyme specific Explain the effect of temperature and pH on enzymes Describe the digestive enzymes, including their names, sites of production and actions Describe how the products of digestion are used Describe the features and functions of bile and state where it is produced and released from Required practical 4: use qualitative reagents to test for a range of carbohydrates, lipids and proteins Required practical 5: investigate the effect of pH on the rate of reaction of amylase enzyme Describe the structure of the human heart and lungs (inc how lungs are adapted for gaseous exchange) Explain how the heart moves blood around the body (inc role and position of the aorta, vena cava, pulmonary artery & vein and coronary arteries) Explain how the natural resting heart rate is controlled and how irregularities can be corrected Describe the structure and function of arteries, veins and capillaries Use simple compound measures such as rate and carry out rate calculations for blood flow Describe blood and identify its different components, inc identifying blood cells from photographs/diagrams Describe the functions of blood components, including adaptations to function Describe what happens in coronary heart disease and what statins are used for Describe and evaluate treatments for coronary heart disease and heart failure (inc drugs, mechanical devices or transplant) Recall that heart valves can become faulty and describe the consequences of this Describe how patients can be treated in the case of heart failure Describe health and the explain causes of ill-health and the relationship between health and disease Describe how different types of diseases may interact and translate disease incidence information between graphical and numerical forms Describe what risk factors are and give examples discussing human and financial costs of non- communicable diseases at local, national and global levels Describe what cancer is and explain the difference between benign and malignant tumours Describe the known risk factors for cancer, including genetic and lifestyle risk factors 4.2.3 Plant tissues, organs and system Describe plant tissues (epidermal, palisade mesophyll, spongy mesophyll, xylem, phloem and meristem) and describe their functions Explain how the structure of plant tissues are related to their function within the leaf (plant organ) inc stomata and guard cells Recall the plant parts that form a plant organ system that transports substances around the plant Explain how root hair cells, xylem and phloem are adapted to their functions Describe the process of transpiration and translocation including the role of the different plant tissues Explain how the rate of transpiration can be affected by different factors (inc naming the factors) Describe the role of stomata and guard cells in the control of gas exchange and water loss