This fully-resourced lesson describes how antibodies are used in the enzyme-linked immunosorbent assay (ELISA) test. The PowerPoint and accompanying resources are part of the last lesson in a series of 7 which have been designed to cover the details within point 2.4 of the AQA A-level specification. As the last lesson in this sub-topic, prior knowledge checks are included throughout the lesson which challenge the students on their knowledge of antibodies, immunity and protein structure. The lesson begins by challenging the students to use the details of a poster to recognise that individuals who have recovered from COVID-19 could donate plasma and the antibodies be infused into newly infected individuals. They are then expected to answer a series of exam-style questions where they have to describe the structure of these specific antibodies, recognise this as artificial, passive immunity and describe the potential problems should the virus mutate and the shape of its antigens change. This leads into the introduction of the use of antibodies in other ways, namely the ELISA test. The methodology of this test has been divided into four key steps which students will consider one at a time and then answer further questions about key details such as the immobilisation of the antigen and the removal of proteins and antibodies that have not bound by the washing with the detergent after each step. The lesson focuses on the use of this test for medical diagnosis but other uses such as plant pathology and the detection of allergens is briefly introduced at the end of the lesson.

This lesson describes how to calculate the standard deviation to measure the spread of a set of data and to compare means using the t-test. The detailed PowerPoint and accompanying resources have been designed to cover the part of point 4.2.2 (f) of the OCR A-level Biology A specification that includes these two statistical tests. A step by step guide walks the students through each stage of the calculation of the standard deviation and gets them to complete a worked example with the class before applying their knowledge to another set of data. This data looks at the birth weights of humans on one day in the UK and this is used again later in the lesson to compare against the birth weights of babies in South Asia when using the student’s t-test. The null hypothesis is introduced and students will learn to accept or reject this based upon a comparison of their value against one taken from the table based on the degrees of freedom.

This fully-resourced lesson describes the regulatory mechanisms that control gene expression at a transcriptional level. The detailed PowerPoint and accompanying resources have been designed to cover the first part of point 6.1.1 (b) as detailed in the OCR A-level Biology A specification which states that the students knowledge should include the lac operon and examples of transcription factors in eukaryotes. . This is one of the more difficult concepts in this A-level course and therefore key points are reiterated throughout this lesson to increase the likelihood of student understanding and to support them when trying to make links to actual biological examples in living organisms. There is a clear connection to transcription and translation as covered in module 2.1.3, so the lesson begins by reminding students that in addition to the structural gene in a transcription unit, there is the promotor region where RNA polymerase binds. Students are introduced to the idea of transcription factors and will understand how these molecules can activate or repress transcription by enabling or preventing the binding of the enzyme. At this point, students are challenged on their current understanding with a series of questions about DELLA proteins so they can see how these molecules prevent the binding of RNA polymerase. Their understanding is then tested again with another example with oestrogen and the ER receptor. The final and main section of the lesson focuses on the lac operon and immediately an opportunity is taken to challenge their knowledge of biological molecules with a task where they have to spot the errors in a passage describing the formation and breakdown of this disaccharide. Students will be able to visualise the different structures that are found in this operon and time is taken to go through the individual functions. A step by step guide is used to walk students through the sequence of events that occur when lactose is absent and when it is present before they are challenged to apply their understanding to an exam question.

A highly engaging lesson presentation (74 slides) and accompanying worksheets that uses exam questions (with explained answers), quick tasks and quiz competitions to allow students to assess their understanding of the topic of Biological molecules (Topic 3.1). Students will have fun whilst recognising those areas of the specification which need further attention.

This is a fully-resourced lesson that looks at the functional and structural differences between the transport tissues in a plant, the xylem and phloem. The lesson includes an engaging lesson presentation (41 slides), which includes numerous student-led tasks, progress checks and quick competitions and two question worksheets, one of which is a differentiated version to enable those students who are finding this topic difficult to still be able to access the learning. The lesson begins with the introduction of the two tissues as well as a brief introduction to the substances which they each carry. The next part of the lesson focuses on the xylem cells and the resulting xylem vessel, and key terms such as lignin are brought into the lesson so that students can understand how these cells are waterproofed, which causes them to decay and form hollow tubes. Having met a lot of information, students are challenged to act like an examiner to form a table based question to compare the xylem against the phloem where they have to come up with features which could be compared against. This table will form the backbone of the lesson and students will use it later in the lesson when they have to write summary passages about each of the tissues. Moving forwards, a quick competition is used to enable the students to meet the names of the cells that form the phloem tissue, the sieve tube elements and the companion cells. Students will see how they are involved in the functioning of the phloem and questions are posed which relate to other topics such as the involvement of mitochondria wherever active transport occurs. Progress checks like this are found at regular intervals throughout the lesson so that students can constantly assess their understanding. This lesson has been designed for GCSE students. If you are looking to teach about these tissues but to a higher standard, you could use my uploaded alternative called Xylem and Phloem (A-level)

This is a fully-resourced REVISION lesson that consists of a detailed and engaging PowerPoint (86 slides) and associated worksheets that challenge the students on their knowledge of the content of Topic 5 (Health, disease and the development of medicines) of the Edexcel GCSE Biology specification. A wide range of activities have been written into the lesson to maintain motivation and these tasks include exam questions (with answers), understanding checks, differentiated tasks and quiz competitions. The lesson has been designed to include as much which of the content from topic 5, but the following sub-topics have been given particular attention: Identification of bacterial, fungal and viral diseases in animals and plants The treatment of bacterial infections The reduction and prevention of the spread of pathogens The body’s response to immunisation The physical defences of humans and plants The risk factors of CHD and possible treatments BMI The production and use of monoclonal antibodies This lesson can be used at numerous points over the duration of the course, as an end of topic revision aid, in the lead up to the mocks or in the lead up to the actual GCSE exams.

A detailed lesson presentation (37 slides) and associated worksheets that guide students through the DNA sequencing method called pyrosequencing. The lesson focusses on the numerous enzymes and substrates which are involved in the cascade of events which eventually leads to the production of light when the conversion from luciferin to oxyluciferin occurs. A step by step guide is used to show the students how these events occur and the different outcomes are explored. There are regular progress checks throughout the lesson so that students can assess their understanding of this topic and the links to similar topics. This lesson has been designed for A-level students and above

An engaging lesson presentation (61 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 B5 (Genes, inheritance and selection) of the OCR Gateway A GCSE Biology specification The topics that are tested within the lesson include: Sexual and asexual reproduction Meiosis Dominant and recessive alleles Genetic crosses The history of genetics Natural selection Classification systems Students will be engaged through the numerous activities including quiz rounds like “Number CRAZY" and “Which Scientist is hidden?” whilst crucially being able to recognise those areas which need further attention

An informative and engaging lesson (46 slides) that looks at the topic of immobilised enzymes and focusses on ensuring that students understand this topic around three main ideas. By the end of the lesson, students will be able to explain why immobilised enzymes are used, describe the different methods by which they are produced and describe some of their uses in biotechnology. Time is taken throughout the lesson to make sure that students understand the disadvantages associated with this process and that they are able to explain the specific limitations of each method. This lesson has been designed for students studying A-level Biology

A fully-resourced lesson which looks at how the sex chromosomes which determine gender are inherited in humans. The lesson includes an engaging lesson presentation (24 slides) and an associated worksheet containing knowledge recall and application questions. The lesson begins with a range of different quiz competitions which enable the students to get the answers of X, Y, zygote and 23. With a little bit of assistance, students are challenged to bring these terms together to complete a passage about how the inheritance of either an XX genotype will lead to a female or a XY genotype will lead to a male. Moving forwards, students are told how they will be expected to be able to construct a genetic diagram to show the inheritance of gender and so are given a quick recap before being challenged to do just that. The last part of the lesson gets students to discuss and consider whether females or males are responsible for determining sex in terms of their gametes. There are regular progress checks throughout the lesson to allow the students to check on their understanding. The lesson has been written for GCSE students primarily but the content is suitable for both KS3 and even A-level students

This is a fully-resourced REVISION lesson that challenges the students on their knowledge of the content found in TOPIC 4 (Biodiversity and Natural resources) of the Edexcel A-level Biology (Salters Nuffield) specification. The lesson contains an engaging PowerPoint (104 slides) and accompanying worksheets that use a range of exam questions, differentiated tasks and quiz competitions to motivate the students whilst they evaluate their knowledge of the different sub-topics. The lesson has been designed to cover as much of the topic 4 specification as possible, but the following sub-topics have been given particular attention: Three-domain classification The features of the kingdoms Evolutionary relationships Behavioural, anatomical and physiological adaptations Glycosidic bonds The structure and function of cellulose The ultrastructure of plant cells Calculating the index of diversity and the heterozygosity index Applying the Hardy-Weinberg principle to calculate allele frequencies This lesson is suitable for revision at the end of the topic, in the lead up to the mocks or in the lead up to the actual A-level exams as topic 4 is assessed on both Paper 1 and Paper 2.

This revision lesson contains an engaging powerpoint (45 slides) and associated worksheets that are incorporated into the lesson to challenge and consolidate the learning. The lesson has been designed to contain a wide range of activities so that students remain motivated and engaged whilst they assess their understanding of the content found in Biology topic 3 (Infection and response) of the AQA GCSE Combined Science specification (Trilogy 9-1) The exam questions, differentiated tasks and quiz competitions found within the lesson challenge the following specification topics: Communicable (infectious) diseases Viral diseases Bacterial diseases Fungal diseases Protist diseases The Human defence system Vaccinations Antibiotics Students will be able to use the lesson to identify the areas of the specification that require further attention and this lesson can be used at the end of the topic, in the lead up to the mocks or in the lead up to the actual GCSE exams.

A fun and engaging lesson presentation (33 slides) and associated worksheet that uses exam questions, with fully explained answers, quick tasks and competitions to allow students to assess their understanding of Module 3.1.2 (Transport in Animals). The students will enjoy the lesson whilst being able to recognise which areas of the specification need further attention. Competitions included in the lesson are “SPOT THE ERROR”, “Where’s Lenny” and “Crack the code”

This fully-resourced lesson describes the process of anaerobic respiration in eukaryotes and explains how pyruvate can be converted to lactate or ethanol using the hydrogen atoms released from reduced NAD and that the reoxidation of this coenzyme allows glycolysis to continue. The engaging and detailed PowerPoint and accompanying differentiated resources have been designed to cover the first part of point 5.2.2 (i) of the OCR A-level Biology A specification which states that students should be able to demonstrate and apply their knowledge and understanding of anaerobic respiration in mammals and yeast. The lesson begins with a focus on the coenzyme, NAD, and students are challenged to recall details of its role in the oxidation of triose phosphate. Students will recall that oxidative phosphorylation in aerobic respiration allows these coenzymes to be reoxidised and therefore recognise that another metabolic pathway has to operate when there is no oxygen available. Time is taken to go through the details of the lactate and ethanol fermentation pathways and students are encouraged to discuss the conversions before applying their knowledge to complete diagrams and passages about the pathways. Understanding checks in a range of forms are used to enable the students to assess their progress whilst prior knowledge checks allow them to recognise the links to earlier topics. This lesson has been written to tie in with the other uploaded lessons on glycolysis and the stages of aerobic respiration

A fully resourced revision lesson which uses a range of exam questions (with explained answers), quick tasks and quiz competitions to enable the students to assess their understanding of the topics found within module 3 (Exchange and transport) of the OCR A-level Biology specification. The topics tested within this lesson include: Exchange surfaces Mammalian gaseous exchange system Tissues in the gaseous exchange system Transport in animals Blood vessels Exchange at the capillaries ECG Transport of oxygen Transport in plants Transport tissues Movement of water through plants Transpiration Translocation Student will enjoy the range of tasks and quiz rounds whilst crucially being able to recognise any areas which require further attention