This lesson describes how the sensory receptors of the nervous system detect stimuli by transducing different forms of energy into electrical energy. The PowerPoint has been designed to cover the content of the 1st part of specification point 8.5 of the Pearson Edexcel A-level Biology A (Salters Nuffield) specification and acts as an introduction to the next lesson where the roles of the rod cells in the retina is described. The lesson begins by using a quiz to get the students to recognise the range of stimuli which can be detected by receptors. This leads into a task where the students have to form 4 sentences to detail the stimuli which are detected by certain receptors and the energy conversion that happen as a result. Students will be introduced to the idea of a transducer and learn that receptors always convert to electrical energy which is the generator potential. The remainder of the lesson focuses on the Pacinian corpuscle and how this responds to pressure on the skin, resulting in the opening of the sodium channels and the flow of sodium ions into the neurone to cause depolarisation.

This lesson describes the Krebs cycle as a stage of aerobic respiration that liberates energy to produce ATP and reduced NAD and releases carbon dioxide. The PowerPoint and accompanying resource have been designed to cover specification point [c] in topic 3 of A2 unit 3 of the WJEC A-level Biology specification. The lesson begins with a version of the Impossible game where students have to spot the connection between 8 of the 9 terms and will ultimately learn that this next stage is called the Krebs cycle. The main part of the lesson challenges the students to use descriptions of the main steps of the cycle to continue their diagram of the reactions. Students are continually exposed to key terminology such as decarboxylation and dehydrogenation and they will learn where carbon dioxide is lost and reduced NAD and FAD are generated. They will also recognise that ATP is synthesised by substrate level phosphorylation. The final task challenges them to apply their knowledge of the cycle to work out the numbers of the different products and to calculate the number of ATP that must be produced in the next stage This lesson has been designed to tie in with the other uploaded lessons on glycolysis and the electron transport chain (in oxidative phosphorylation).

As the monomers of proteins, amino acids are extremely important and this lesson describes their structure and roles in organisms. The engaging PowerPoint has been designed to cover point (h) as detailed in AS unit 1, topic 1 of the WJEC A-level Biology specification and provides a clear introduction to the following lesson on the protein structures. The lesson begins with a prior knowledge check, where the students have to use the 1st letters of 4 answers to uncover a key term. This 4-letter key term is gene and the lesson begins with this word because it is important for students to understand that these sequences of bases on DNA determine the specific sequence of amino acids in a polypeptide. Moving forwards, students are given discussion time to work out that there are 64 different DNA triplets and will learn that these encode for the 20 amino acids that are common to all organisms. The main task of the lesson is an observational one, where students are given time to study the displayed formula of 4 amino acids. They are not allowed to draw anything during this time but will be challenged with 3 multiple choice questions at the end. This task has been designed to allow the students to visualise how the 20 amino acids share common features in an amine and an acid group. A quick quiz round introduces the R group and time is taken to explain how the structure of this side chain is the only structural difference, before cysteine is considered in greater detail due to the presence of sulfur atoms. Students are briefly introduced to disulfide bridges so they will recognise how particular bonds form between the R groups in the tertiary structure which is covered in the next lesson. One more quiz round called LINK TO THE FUTURE is used to demonstrate the range of roles played by amino acids in the later part of the course such as translation and mineral ions. The final part of the lesson considers challenges the students on their knowledge of hydrolysis reactions as they have to spot the errors in a passage about the breakdown of polypeptides and dipeptides.

This engaging lesson describes the relationship between the structure, properties and functions of phospholipids, focusing on its role in membranes. The PowerPoint has been designed to cover the second part of point (f) as detailed in AS unit 1, topic 1 of the WJEC A-level Biology specification and includes constant references to the previous lesson on triglycerides. The role of a phospholipid in a cell membrane provides the backbone to the whole lesson. A quick quiz round called FAMILY AFFAIR, challenges the students to use their knowledge of the structure of a triglyceride to identify the shared features in a phospholipid. This then allows the differences to be introduced, such as the presence of a phosphate group in place of the third fatty acid. Moving forwards, the students will learn that the two fatty acid tails are hydrophobic whilst the phosphate head is hydrophilic which leads into a key discussion point where the class has to consider how it is possible for the phospholipids to be arranged when both the inside and outside of a cell is an aqueous solution. The outcome of the discussion is the introduction of the bilayer which is critical for the lesson in AS unit 1, topic 3 on the fluid mosaic model. The final part of the lesson explains how both facilitated diffusion and active transport mean that proteins are found floating in the cell membrane and this also helps to briefly prepare the students for upcoming topic 3 lessons.

This revision lesson provides students with the opportunity to assess their understanding of the transport in mammals topic (topic 8). The lesson includes a multiple-choice assessment of 10 questions and a PowerPoint containing the answers, where each answer slide shows the exact specification code to enable students to note the areas which may require extra attention. The PowerPoint also contains additional questions to challenge content from topic 8 of the CIE A-level biology specification (2025 - 2027 update) that isn’t directly covered by the 10 questions. This lesson has been designed to be used at the end of topic 8, and in the build up to mocks and the final A-level examinations.

This revision lesson provides students with the opportunity to assess their understanding of control and coordination (topic 15). The lesson includes a multiple-choice assessment of 10 questions and a PowerPoint containing the answers, where each answer slide shows the exact specification code to enable students to note the areas which may require extra attention. The PowerPoint also contains additional questions to challenge content from topic 15 of the CIE A-level biology specification (2025 - 2027 update) that isn’t directly covered by the 10 questions. This lesson has been designed to be used at the end of topic 15, and in the build up to mocks and the final A-level examinations.

This revision lesson provides students with the opportunity to assess their understanding of homeostasis (topic 14). The lesson includes a multiple-choice assessment of 10 questions and a PowerPoint containing the answers, where each answer slide shows the exact specification code to enable students to note the areas which may require extra attention. The PowerPoint also contains additional questions to challenge content from topic 14 of the CIE A-level biology specification (2025 - 2027 update) that isn’t directly covered by the 10 questions, and prior knowledge checks to encourage students to make links to content from any of topics 1 - 13.

This revision lesson provides students with the opportunity to assess their understanding of nucleic acids and protein synthesis (topic 6). The lesson includes a multiple-choice assessment of 10 questions and a PowerPoint containing the answers, where each answer slide shows the exact specification code to enable students to note the areas which may require extra attention. The PowerPoint also contains additional questions to challenge content from topic 6 of the CIE A-level biology specification (2025 - 2027 update) that isn’t directly covered by the 10 questions, and prior knowledge checks to encourage students to make links to content from topics 1 - 5. This lesson has been designed to be used at the end of topic 6, and in the build up to mocks and the final A-level assessments.

This revision lesson provides students with the opportunity to assess their understanding of energy transfers in and between organisms (topic 5). The lesson includes a multiple-choice assessment of 20 questions, challenging photosynthesis, respiration, energy and ecosystems, and nutrient cycles, and a PowerPoint containing the answers, where each answer slide shows the exact specification code to enable students to note the areas which may require extra attention. The PowerPoint also contains additional questions to challenge content from topic 5 of the AQA A-level biology specification that isn’t directly covered by the 20 questions, and prior knowledge checks to encourage students to make links to related content from topics 1 - 4. This lesson has been designed to be used at the end of topic 5, and in the build up to mocks and the final A-level examinations.

This revision lesson uses a 20 question multiple-choice assessment to challenge the students on their understanding of the topic 2 content (Cells). It has been written to check their knowledge from across the AQA A-level biology topic 2 specification and includes questions on the structure of eukaryotic and prokaryotic cells, the methods of studying cells, mitosis and binary fission, transport across cell membranes and the immune system. The lesson includes a PowerPoint where the answers to the 20 questions are revealed, along with their respective specification codes, to allow the students to pinpoint areas of the specification that require extra attention. The PowerPoint also includes extra questions and tasks to challenge some of the content not directly questioned in the MC assessment. Lessons challenging their knowledge of topics 1, 3 and 4 have also been uploaded.

At the end of topic 3, or in the lead up to mocks or final A-level exams, students can use this lesson to assess their understanding of topic 3 content. The lesson consists of 20 multiple-choice questions, which have been written to challenge the students on the detail of their knowledge, as well as a PowerPoint which contains the answers, explanations and key points related to the specification. The PowerPoint also contains other topic 3 knowledge checks on content which isn’t directly questioned in the multiple-choice assessment, and prior knowledge checks to encourage the students to recognise the links to topic 1 and 2. The following topics are challenged by the multiple-choice questions: Surface area to volume ratio Gas exchange (in animals and plants) Digestion and absorption Mass transport in animals Mass transport in plants

This revision lesson provides students with the opportunity to assess their understanding of topic 7 and identify those areas which need revisiting. Included in the lesson is a multiple-choice assessment consisting of 20 questions and a PowerPoint revealing the answers, along with explanations and workings for the more difficult questions, and key points which relate to the AQA A-level biology specification. The title of topic 7 is genetics, populations, evolution and ecosystems and content from all four of the sub-topics in this topic is challenged within this assessment. The PowerPoint also contains further questions on topic 7 to challenge knowledge not directly covered in the 20 questions and prior knowledge checks when the content links to work covered in one of the previous 6 topics. This lesson has been designed to be used at the end of the topic and/or in the build up to the final A-level assessments.

This revision lesson contains an assessment of 20 multiple-choice questions and a PowerPoint with the answers and related key points from the specification. The 20 questions have been written to cover the content of topic 4 of the AQA A-level biology specification, providing the students with an opportunity to assess their understanding and highlight those areas which need further attention. All 7 sub-topics of topic 4 are covered by at least one question and there are several questions which challenge mathematical skills, which aligns with the high mathematical content of the final assessments.

This lesson describes how recombinant DNA can be produced, including the role of restriction endonucleases and DNA ligase. The PowerPoint and accompanying resources have been designed to cover the content of point 7.4 (i) of the Edexcel A-level Biology B specification. This lesson begins with the introduction of recombinant DNA technology as a process where fragments of DNA are transferred from one species to another. Over the course of the lesson, the students are guided through 5 steps in the production of the recombinant DNA, with a focus on the enzymes involved, which are reverse transcriptase, DNA polymerase, restriction endonuclease, and DNA ligase. Understanding checks and prior knowledge checks are used throughout the lesson and the answers are embedded into the PowerPoint to allow the students to assess their progress.

This lesson describes how epigenetic changes like DNA methylation and histone modification can modify the activation of certain genes. The PowerPoint and accompanying resources have been planned to cover points 3.14 ii & iii of the Pearson Edexcel A-level biology (Salters-Nuffield) specification. The lesson begins by introducing the prefix epi- as meaning on or above in Greek to allow students to recognise that epigenetics refers to changes in gene function due to factors beyond the genetic code. Moving forwards, they will learn that DNA methylation involves the attachment of a methyl group to cytosine and will come to understand how this inhibits transcription. They are challenged to recognise the pathogenesis of atherosclerosis through a variety of tasks before reading through a source detailing the results of a study between this cardiovascular condition and DNA methylation. The remainder of the lesson considers how the acetylation of histone proteins affects the expression of genes. Understanding and prior knowledge checks are embedded throughout the lesson (along with the answers) to allow the students to assess their progress on this topic and to encourage them to make links to the content of topics 1 - 2.

This detailed and engaging lesson describes the different ecological techniques used to assess the abundance and distribution of organisms in a habitat. In line with point 10.1 (iv) of the Edexcel A-level biology B specification, the following techniques are included in the PowerPoint and accompanying resources: quadrats (of differing areas) transects ACFOR scale percentage cover The mathematical element of the course is challenged in the early stages of this lesson, when the students have to estimate the populations of different plant species using data obtained with a quadrat. Understanding checks are used throughout the lesson to allow the students to assess their progress against the current topic and they are encouraged to consider the advantages and disadvantages of each technique.

This fully-resourced lesson describes the stages of succession from colonisation to climax community. The PowerPoint and accompanying worksheets have been designed to cover the content of point 5.4 of the Edexcel A-level Biology A specification. As you can see from the cover image, this lesson uses a step-by-step method to guide the students through each stage of the process of succession, explaining each of the gradual, progressive changes that occur in a community over time. At each stage, time is taken to consider the organisms involved. There is a focus on lichens as examples of pioneer species and students will understand how colonisation by these organisms is critical to provide organic matter and to turn the bare ground into soil so it is habitable by other species. The island of Surtsey in Iceland is used as real-world example and shows how different parts of an area can be at different stages of succession. Understanding and prior knowledge checks are embedded into the PowerPoint (along with the answers) to allow students to assess their progress against the current topic and to encourage them to make links to previously-covered work.

This lesson describes succession as the gradual, progressive changes that occur in a community over time. The PowerPoint and accompanying resources are part of lesson 3 in a series of 4 lessons which have been planned to cover the content included in topic 7.4 of the AQA A-level biology specification. In line with the specification, the lesson describes primary succession and explains how the community changes from the initial colonisation by the pioneer species to the establishment of a climax community. Time is taken to focus on the lichen as a pioneer species and to explain how their actions lead to the production of soil and the subsequent colonisation by more hardy species. The island of Surtsey is used as a real-world example to deepen student understanding. Understanding checks and prior knowledge checks are embedded throughout the lesson (along with the answers) so students can assess their progress on the current topic and also test their ability to link to previously covered topics. Due to the high mathematical content of the AQA assessments, a maths in a biology context question has also been included.

This fully-resourced lesson explores the inheritance of sex-linked diseases in humans and then challenges the students to apply their knowledge to examples in other animals. The detailed PowerPoint and associated differentiated resources have been designed to cover the part of point 7.1 of the AQA A-level specification which states that students should be able to use fully-labelled genetic diagrams to predict the results of crosses involving sex-linkage. Key genetic terminology is used throughout and the lesson begins with a check on their ability to identify the definition of homologous chromosomes. Students will recall that the sex chromosomes are not fully homologous and that the smaller Y chromosome lacks some of the genes that are found on the X. This leads into one of the numerous discussion points, where students are encouraged to consider whether females or males are more likely to suffer from sex-linked diseases. In terms of humans, the lesson focuses on haemophilia and red-green colour blindness and a step-by-step guide is used to demonstrate how these specific genetic diagrams should be constructed and how the phenotypes should then be interpreted. The final tasks of the lesson challenge the students to carry out a dihybrid cross that involves a sex-linked disease and an autosomal disease before applying their knowledge to a question about chickens and how the rate of feather production in chicks can be used to determine gender. All of the tasks are differentiated so that students of differing abilities can access the work and all exam questions have fully-explained, visual markschemes to allow them to assess their progress and address any misconceptions

This fully-resourced lesson describes the meaning of directional and stabilising selection and uses real-life examples to develop student understanding. The PowerPoint and accompanying resources are part of the 3rd lesson in a series of 4 that have been designed to cover the details of topic 4.4 (genetic diversity and adaptation) of the AQA A-level biology specification. As stated in the specification, antibiotic resistance is used as the key example to explain directional selection whereas human baby birth weight explains stabilising selection. The lesson is filled with current understanding checks so any misunderstandings can be immediately addressed, and also prior knowledge checks, where students are expected to recall key details from lessons in this topic so they can make important links. The lesson concludes with a short quiz called “SELECT that word” (shown on the cover image) where students have to identify the types of selection from clues to reveal a key biological word.