This lesson describes the non-specific responses of the body to infection which include inflammation, lysozyme action, interferon and phagocytosis. The detailed PowerPoint and accompanying resources have been primarily designed to cover the content of point 6.8 of the Edexcel International A-level Biology specification but key details such as antigen-presentation are also introduced to prepare students for upcoming lessons on the immune response (6.9 & 6.10). At the start of the lesson, the students are challenged to recall that cytosis is a suffix associated with transport mechanisms and this introduces phagocytosis as a form of endocytosis which takes in pathogens and foreign particles. This emphasis on key terminology runs throughout the course of the lesson and students are encouraged to consider how the start or end of a word can be used to determine meaning. The process of phagocytosis is then split into 5 key steps and time is taken to discuss the role of opsonins as well as the fusion of lysosomes and the release of lysozymes. A series of application questions are used to challenge the students on their ability to make links to related topics including an understanding of how the hydrolysis of the peptidoglycan wall of a bacteria results in lysis. Students will be able to distinguish between neutrophils and monocytes from a diagram and at this point, the role of macrophages and dendritic cells as antigen-presenting cells is described so that it can be used in the next lesson. The importance of cell signalling for an effective immune response is discussed and the rest of the lesson focuses on the release of two chemicals - interferons and histamine. During the interferon section, references are made to a previous lesson on HIV structure and action so students can understand how the release of these signalling proteins helps neighbouring cells to heighten their anti-viral defences. A step by step guide is used to describe the release of histamine in the inflammatory response and the final task challenges students to use this support to form a detailed answer regarding the steps in inflammation.

This lesson describes the detailed structure of a skeletal muscle fibre and the structural and physiological differences between fast and slow twitch fibres. The engaging PowerPoint and acccompanying resources have been designed to cover points 7.10 (i) & (ii) of the Edexcel International A-level Biology specification. The start of the lesson uses an identification key to emphasise that skeletal muscle differs from cardiac and smooth muscle due to its voluntary nature. It is important that key terminology is recognised so once myology has been revealed as the study of muscles, key structural terms like myofibril, myofilament and myosin can be introduced. Moving forwards, students will be shown the striated appearance of this muscle so they can recognise that some areas appear dark where both myofilaments are found and others as light as they only contain actin or myosin. A quiz competition is used to introduce the A band, I band and H zone and students then have to use the information given to label a diagram of the myofibril. This part of the lesson has been specifically planned to prepare the students for the upcoming lesson which describes the contraction of skeletal muscles by the sliding filament mechanism The rest of the lesson focuses on the structural and physiological differences between fast and slow twitch fibres and the following characteristics are covered: Reliance on the aerobic or anaerobic pathways to generate ATP Resistance to fatigue mitochondrial density capillary density myoglobin content (and colour) fibre diameter phosphocreatine content glycogen content A wide variety of tasks are used to cover this content and include knowledge recall and application of knowledge exam-style questions with fully-displayed mark schemes as well as quick quiz competitions to maintain motivation and engagement.

This fully-resourced lesson describes how the cells of multicellular organisms are specialised for particular functions and organised into tissues, organs and organ systems. The detailed and engaging PowerPoint and accompanying resources have been designed to cover points 2.1.6 (h, i, j and k) of the OCR A-level Biology A specification and also describes how stem cells differentiate, including the production of erythrocytes (red blood cells) and neutrophils. The start of the lesson focuses on the difference in the SA/V ratio of an amoeba and a human in order to begin to explain why the process of differentiation is critical for multicellular organisms. Students will discover that a zygote is a stem cell which can express all of the genes in its genome and divide by mitosis. Time is then taken to introduce gene expression as this will need to be understood in the later topics of the course. Moving forwards, the lesson uses the process of haematopoiesis from haematopoietic stem cells to demonstrate how the red blood cell and neutrophil differ significantly in structure despite arising from the same cell along the same cell lineage. A series of exam-style questions will not only challenge their knowledge of structure but also their ability to apply this knowledge to unfamiliar situations. These differences in cell structure is further exemplified by the epithelial cells of the respiratory tract and students will understand why the shape and arrangement of these cells differ in the trachea and alveoli in line with function. The link between specialised cells and tissues is made at this point of the lesson with these examples of epithelium and students will also see how tissues are grouped into organs and then into organ systems. The remainder of the lesson focuses on specialised plant cells and the differing shapes and features of the palisade and spongy mesophyll cells and the guard cells are covered at length and in detail. Step by step guides will support the students so that they can recognise the importance of the structures and links are made to upcoming topics such as the vascular tissues so that students are prepared for these when covered in the future.

This concise lesson has been written to cover specification point 5.1.1 (d) of the OCR A-level Biology A specification which states that students should be able to apply an understanding of the behavioural responses in temperature control in ectotherms. The main aim when designing the lesson was to support students in making sensible and accurate decisions when challenged to explain why these types of organisms have chosen to carry out a particular response. A wide range of animals are used so students are engaged in the content matter and are prepared for the unfamiliar situations that they will encounter in the final exam. Time is also taken to compare ectotherms against endotherms so that students can recognise the advantages and disadvantages of ectothermy. This lesson has been written for A-level students studying on the OCR A-level Biology A course. Lessons on temperature control in endotherms and the principles of homeostasis and cell signalling, which are also in module 5.1.1, are also available so please download those too as they will allow students to make connections between one lesson, the previous and the next.

This detailed lesson describes how urea is formed in the liver by deamination and then removed from the bloodstream by ultrafiltration at the kidney. The PowerPoint and accompanying resources have been designed to cover point 9.9 (ii) of the Edexcel A-level Biology B specification. The first part of the lesson describes how deamination and the ornithine cycle forms urea. Although the students are not required to know the details of the cycle, it is important that they are aware of how the product of deamination, ammonia, is converted into urea (and why). Moving forwards, the rest of the lesson has been written to allow the students to discover ultrafiltration as a particular function and to be able to explain how the mechanisms found in the glomerulus and the Bowman’s capsule control the movement of small molecules out of the blood plasma. Key terminology is used throughout and students will learn how the combination of the capillary endothelium and the podocytes creates filtration slits that allow glucose, water, urea and ions through into the Bowman’s capsule but ensure that blood cells and plasma proteins remain in the bloodstream. A number of quiz competitions are used to introduce key terms and values in a fun and memorable way whilst understanding and prior knowledge checks allow the students to assess their understanding of the current topic and to challenge themselves to make links to earlier topics. The final task of the lesson challenges the students to apply their knowledge by recognising substances found in a urine sample that shouldn’t be present and to explain why this would cause a problem

An engaging lesson presentation (65 slides) and associated worksheets that uses a combination of exam questions, quick tasks and quiz competitions to help the students to assess their understanding of the topics found within unit B1 (Cell-level systems) of the OCR Gateway A GCSE Biology specification The topics that are tested within the lesson include: Plant and animal cells Bacterial cells Light and electron microscopy DNA Transcription and translation Enzymes Photosynthesis Students will be engaged through the numerous activities including quiz rounds like “Shine a LIGHT on any errors" whilst crucially being able to recognise those areas which need further attention

This lesson describes how the products of the light-independent reactions of photosynthesis are used by plants, animals and other organisms. The engaging and detailed PowerPoint and accompanying resources have been primarily designed to cover point 5.4 (ii) of the Edexcel International A-level Biology specification concerning the uses of GP and GALP but as the lesson makes continual references to biological molecules, it can act as a revision tool for a lot of the content of topic 1 and 2. The previous lesson described the light-independent reactions and this lesson builds on that understanding to demonstrate how the intermediates of the cycle, GP and GALP, are used. The start of the lesson challenges the students to identify two errors in a diagram of the cycle so that they can recall that most of the GALP molecules are used in the regeneration of ribulose bisphosphate. A quiz version of Pointless runs throughout the lesson and this is used to challenge the students to recall a biological molecule from its description. Once each molecule has been revealed, time is taken to go through the details of the formation and synthesis of this molecule from GALP or from GP in the case of fatty and amino acids. The following molecules are considered in detail during this lesson: glucose (and fructose and galactose) sucrose starch and cellulose glycerol and fatty acids amino acids nucleic acids A range of activities are used to challenge their prior knowledge of these molecules and mark schemes are always displayed for the exam-style questions to allow the students to assess their understanding. As detailed above, this lesson has been specifically written to tie in with the earlier lessons in this topic on the structure of the chloroplast and the light-dependent and light-independent reactions of photosynthesis

This fully-resourced lesson describes how light and electron microscopy can be used to observe cells and cell structures. The engaging PowerPoint and accompanying resources have been designed to cover the content of points 2.1.1 (a) & (f) of the OCR A-level Biology A specification and also describes the difference between magnification and resolution As this is likely to be one of the very first lessons that students cover in their A-level studies, it’s important to maintain motivation from the off whilst covering the detailed and important content of microscope studies. In line with this, all of the lessons in module 2.1.1 (cell structure) have an ongoing quiz competition where points can be won in rounds that introduced key terms and values. A quiz scoresheet is included within the resources so that the teacher can keep track of the scores over the 7 lessons in the module and the winning team can be revealed at the end of the last lesson. In this lesson, the quiz rounds are interspersed between a range of tasks which cover the following content: The use of the light microscope to observe cells The total magnification as a product of the power of the eyepiece and objective lens An introduction to the importance of staining The difference between magnification and resolution The use of the TEM The use of the SEM Due to the detail included in this lesson, it is estimated that it will take in excess of 2 hours of allocated A-level teaching time to cover the content

This fully-resourced lesson describes the differences between resolution and magnification, with reference to light and electron microscopy and the engaging PowerPoint and accompanying resources have been designed to cover the content of point 1.1 (d) of the CIE A-level Biology specification. To promote engagement and focus throughout these 3 lessons in topic 1.1 (The microscope in cell studies), the PowerPoint includes an ongoing quiz competition and a score sheet is found within the resources to keep track of the cumulative scores. The quiz rounds found in this lesson will introduce the objective lens powers, the names of the parts of a light microscope and emphasise some of the other key terms such as resolution. The final round checks on their understanding of the different numbers that were mentioned in the lesson, namely the differing maximum magnifications and resolutions. Time is taken to explain the meaning of both of these microscopic terms so that students will understand their importance when looking at the cell structures in topic 1.2. By the end of the lesson, the students will be able to explain how a light microscope uses light to form an image and will understand how electrons transmitted through a specimen or across the surface will form an image with a TEM or a SEM respectively. As detailed above, this lesson has been written to tie in with the previous lesson on measuring cells and units as well as the next lesson on calculating actual size.

This detailed lesson explains how the process of transcription results in the production of the single-stranded nucleic acid, mRNA. Both the detailed PowerPoint and accompanying resource have been designed to specifically cover the third part of point 2.1.3 of the OCR A-level Biology A specification but also provides important information that students can use when being introduced to splicing and gene expression in module 6. The lesson begins by challenging the students to recognise that most of the nuclear DNA in eukaryotes does not code for polypeptides. This allows the promoter region and terminator region to be introduced, along with the structural gene. Through the use of an engaging quiz competition, students will learn that the strand of DNA involved in transcription is known as the template strand and the other strand is the coding strand. Links to previous lessons on DNA and RNA structure are made throughout and students are continuously challenged on their prior knowledge as well as they current understanding of the lesson topic. Moving forwards, the actual process of transcription is covered in a 7 step bullet point description where the students are asked to complete each passage using the information previously provided. So that they are prepared for module 6, students will learn that the RNA strand formed at the end of transcription in eukaryotes is a primary transcript called pre-mRNA and then the details of splicing are explained. An exam-style question is used to check on their understanding before the final task of the lesson looks at the journey of mRNA to the ribosome for the next stage of translation. This lesson has been written to challenge all abilities whilst ensuring that the most important details are fully explained.

This fully-resourced lesson has been designed to cover the specification point about co-dominance (and blood groups) as detailed in the supplement section of topic 17 (inheritance) of the CIE IGCSE Biology specification. As specified in this point, students will learn how this inheritance of the ABO blood group system demonstrates co-dominance (and also multiple alleles). A potentially difficult topic, time has been taken to include guidance sections where students are walked through the interpretation of the different genotypes to find out the phenotypes as well as constructing genetic diagrams and calculating blood groups from pedigree trees. There is a real focus on genetic terminology such as allele, locus, genotype and phenotype so that the understanding is deep and students can use this if they choose to further their studies at A-level. This lesson has been designed for GCSE-aged students studying the CIE IGCSE Biology course but is also suitable for older students who are learning about codominance and multiple alleles at A-level

This fully-resourced REVISION LESSON is detailed and engaging and covers the content of topic 18 (Biodiversity, classification and conservation) of the CIE International A-level Biology specification. This topic is often viewed as less interesting than other topics by the students but is well represented in the exams in terms of questions and so a lot of time has gone into the design to include a wide range of activities which will allow them to assess their knowledge whilst remaining motivated. All of the exam questions have full answers so students can identify any missed marks and most of the tasks are differentiated to allow students of differing abilities to access the work and remain challenged. The lesson was planned to cover as much of the specification as possible but the following sub-topics have received particular attention: The biological classification of a species Using Simpsons Index of diversity to calculate the biodiversity of the habitat The reasons to maintain biodiversity Methods of protecting endangered species The use of assisted reproduction in conservation Different methods of sampling The taxonomic hierarchy The characteristic features of the domains and kingdoms Links to the other topics of the specification are made throughout the lesson and there is also a mathematical focus to ensure that the students are comfortable when presented with the numerical challenges Due to the extensiveness of this resource, it is likely to take at least 2 lessons to cover all of the activities

This is a fully-resourced REVISION lesson which prepares the students for the various types of questions that they can encounter on PAPER 1 of the Pearson Edexcel GCSE Combined Science course. The lesson uses a wide range of activities to challenge the students on their knowledge of the content of topics B1 - B5 and has been specifically designed for students taking the HIGHER TIER exam. The lesson has been designed to take place within a hospital and the students will then visit a number of wards, the pharmacy, the hospital cafe and the museum to allow the following specification topics to be covered: Cancer and uncontrolled cell division Meiosis and the production of gametes Mitosis and the cell cycle Sex determination The difference between communicable and non-communicable diseases The spread of communicable diseases by pathogens Diseases caused by the four different pathogens The use of antibiotics to treat bacterial infections Evolution by natural selection in bacteria and animals Genetic terminology The structure of DNA Inheritance of disorders caused by dominant and recessive alleles The central nervous system and other structures involved in nervous reactions Reflex arcs Risk factors of non-communicable diseases Osmosis Fossils as evidence for human evolution In order to cater for the different abilities that can be found in Combined Science classes, most of the tasks have been differentiated 2 or 3 ways and there are also step by step guides to walk the students through the more difficult concepts like evolution by natural selection and genetic diagrams. To maintain engagement throughout the lesson, 8 quiz rounds have been written into the lesson which will challenge the students to work within their teams and compete for a range of team points. The size of this lesson means that it is likely to take in excess of 3/4 teaching hours to cover the detail as necessary and therefore this allows the resource to be used at numerous points throughout the duration of the course as well as just before the terminal exam.

This engaging and fully-resourced lesson looks at the myogenic nature of cardiac muscle and explores the roles of the SAN, AVN and Purkyne tissue (bundle of His) in the initiation and control of heart action. The PowerPoint and accompanying resources have been designed to cover point 3.1.2 (g) of the OCR A-level Biology A specification. The lesson begins with the introduction of the SAN as the natural pacemaker and then time is given to study each step of the conduction of the impulse as it spreads away from the myogenic tissue in a wave of excitation. The lesson has been written to make clear links to the cardiac cycle and the structure of the heart and students are challenged on their knowledge of this system from topic 3.1.2. Moving forwards, students are encouraged to consider why a delay would occur at the AVN and then they will learn that the impulse is conducted along the Bundle of His to the apex so that the contraction of the ventricles can happen from the bottom upwards. The structure of the cardiac muscle cells is discussed and the final task of the lesson challenges the students to describe the conducting tissue, with an emphasis on the use of key terminology Due to the detailed nature of this lesson, it is estimated that it will take about 2 hours of A-level teaching time to cover the detail

This fully-resourced lesson looks at the use and interpretation of electrocardiogram (ECG) traces and focuses on their use in the diagnosis of CVD and other heart conditions. The engaging PowerPoint and accompanying resources have been designed to cover point 3.1.2 (h) of the OCR A-level Biology A specification and continual links are made to linked topics from earlier in this module The lesson has been written to take place in an imaginary cardiology ward where the students are initially challenged on their knowledge of the symptoms and risk factors of CVD before looking at testing through the use of ECGs and diagnosis. The main focus of the lesson is the ECG and a quiz competition is used to introduce the reference points of P, QRS and T before time is taken to explain their representation with reference to the cardiac cycle. Moving forwards, a SPOT the DIFFERENCE task is used to challenge the students to recognise differences between sinus rhythm and some abnormal rhythms including tachycardia and atrial fibrillation. Bradycardia is used as a symptom of sinus node disfunction and the students are encouraged to discuss this symptom along with some others to try to diagnose this health problem.

This is a fully-resourced lesson which uses exam-style questions, engaging quiz competitions, quick tasks and discussion points to challenge students on their understanding of the content of topics B1 - B3, that will assessed on PAPER 1. It has been specifically designed for students on the OCR Gateway A GCSE Combined Science course who will be taking the FOUNDATION TIER examinations but is also suitable for students taking the higher tier who need to ensure that the key points of each of the sub-topics are embedded. The lesson has been written to take place in numerous shops that could be found on the high street to allow the following sub-topics to be covered: Eukaryotes and prokaryotes The prefixes of size and converting between units The cell structures of animal and plant cells The principles of organisation The structure of the heart and the circulatory system The features of the alveoli which enable efficient gas exchange Temperature and photosynthesis The role of enzymes in reactions The functions of the components of blood The homeostatic control of blood glucose by insulin secretion Diabetes type I and II The hormones involved in the menstrual cycle Mitosis and the cell cycle The structures involved in a nervous reaction Reflex arcs In order to maintain challenge whilst ensuring that all abilities can access the questions, the majority of the tasks have been differentiated and students can ask for extra support when they are unable to begin a question. Due to the extensiveness of this revision lesson, it is estimated that it will take in excess of 3 teaching hours to complete the tasks and therefore this can be used at different points throughout the duration of the course as well as acting as a final revision before the PAPER 1 exam

This is a highly-detailed and fully-resourced lesson which covers the detail of specification point 14.1 (g) of the CIE International A-level Biology specification which states that students should be able to describe the roles of the hypothalamus, posterior pituitary, ADH and collecting ducts in osmoregulation. Students learnt about the principles of homeostasis and negative feedback in an earlier lesson, so this lesson acts to build on that knowledge and challenges them to apply their knowledge. A wide range of activities have been included in the lesson to maintain motivation and engagement whilst the understanding and prior knowledge checks will allow the students to assess their progress as well as challenge themselves to make links to other Biology topics. The lesson begins with a discussion about how the percentage of water in urine can and will change depending on the blood water potential. Students will quickly be introduced to osmoregulation and they will learn that the osmoreceptors and the osmoregulatory centre are found in the hypothalamus. A considerable amount of time is taken to study the cell signalling between the hypothalamus and the posterior pituitary gland by looking at the specialised neurones (neurosecretory cells). Links are made to the topics of neurones, nerve impulses and synapses and the students are challenged to recall the cell body, axon and vesicles. The main section of the lesson forms a detailed description of the body’s detection and response to a low blood water potential. The students are guided through this section as they are given 2 or 3 options for each stage and they have to use their knowledge to select the correct statement. The final task asks the students to write a detailed description for the opposite stimulus and this task is differentiated so those who need extra assistance can still access the work. This lesson has been written for students studying on the CIE International A-level Biology course and ties in closely with the other uploaded lessons on the structure of the kidney, ultrafiltration and selective reabsorption

This is a fully-resourced lesson which uses exam-style questions, engaging quiz competitions, quick tasks and discussion points to challenge students on their understanding of the content of topics B1 & B6 - B9, that will assessed on PAPER 2. It has been specifically designed for students on the Pearson Edexcel GCSE Combined Science course who will be taking the FOUNDATION TIER examinations but is also suitable for students taking the higher tier who need to ensure that the key points of each of the sub-topics are embedded. The lesson has been written to take place in numerous shops that could be found on the high street as well as at an urban park to allow the following sub-topics to be covered: Eukaryotes and prokaryotes The prefixes of size and converting between units The cell structures of animal and plant cells The structure of the heart and the circulatory system The features of the alveoli which enable efficient gas exchange Calculating cardiac output Temperature and photosynthesis The role of enzymes in reactions The functions of the components of blood The homeostatic control of blood glucose by insulin secretion Diabetes type I and II Calculating BMI and the link between obesity and diabetes type II The hormones involved in the menstrual cycle The different methods of contraception Estimating population size using sampling results The carbon cycle In order to maintain challenge whilst ensuring that all abilities can access the questions, the majority of the tasks have been differentiated and students can ask for extra support when they are unable to begin a question. Due to the extensiveness of this revision lesson, it is estimated that it will take in excess of 3/4 teaching hours to complete the tasks and therefore this can be used at different points throughout the duration of the course as well as acting as a final revision before the PAPER 2 exam

This lesson describes how the structures of the xylem vessel elements, phloem sieve tube elements and companion cells relates to their functions. Both the engaging and detailed PowerPoint and accompanying resources have been designed to cover point 7.1 (d) of the CIE International A-level Biology specification. The lessons begins by challenging the students to identify the substances that a plant needs for the cellular reactions, where they are absorbed and where these reactions occur in a plant. The aim of this task is to get the students to recognise that water and mineral ions are absorbed in the roots and needed in the leaves whilst the products of photosynthesis are in the leaves and need to be used all over the plant. Students will be reminded that the xylem and phloem are the vascular tissues responsible for transporting these substances and then the rest of the lesson focuses on linking structure to function. A range of tasks which include discussion points, exam-style questions and quick quiz rounds are used to describe how lignification results in the xylem as a hollow tube of xylem cells to allow water to move as a complete column. They will also learn that the narrow diameter of this vessel allows capillary action to move water molecules up the sides of the vessel. The same process is used to enable students to understand how the structures of the companion cells allows assimilates to be loaded before being moved to the sieve tube elements through the plasmodesmata. It is estimated that it will take around 2 hours of A-level teaching time to cover the detail which has been written into this lesson.

This lesson describes how the structures of the xylem vessels, sieve tube elements and companion cells relates to their functions. Both the engaging and detailed PowerPoint and accompanying resources have been designed to cover point 3.1.3 (b) [i] of the OCR A-level Biology A specification. The lessons begins by challenging the students to identify the substances that a plant needs for the cellular reactions, where they are absorbed and where these reactions occur in a plant. The aim of this task is to get the students to recognise that water and mineral ions are absorbed in the roots and needed in the leaves whilst the products of photosynthesis are in the leaves and need to be used all over the plant. Students will be reminded that the xylem and phloem are part of the vascular system responsible for transporting these substances and then the rest of the lesson focuses on linking structure to function. A range of tasks which include discussion points, exam-style questions and quick quiz rounds are used to describe how lignification results in the xylem as a hollow tube of xylem cells to allow water to move as a complete column. They will also learn that the narrow diameter of this vessel allows capillary action to move water molecules up the sides of the vessel. The same process is used to enable students to understand how the structures of the companion cells allows assimilates to be loaded before being moved to the sieve tube elements through the plasmodesmata. It is estimated that it will take in excess of 2 hours of A-level teaching time to cover the detail which has been written into this lesson