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A British trained KS3-5 Biology teacher, I have over 20 years teaching in the UK and internationally. I have taught AQA, CIE, Edexcel and OCR curricula.

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A British trained KS3-5 Biology teacher, I have over 20 years teaching in the UK and internationally. I have taught AQA, CIE, Edexcel and OCR curricula.
CIE 16.3 Gene Control
missmiermissmier

CIE 16.3 Gene Control

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This lesson covers the differences between structural and regulatory genes, and repressible and inducible enzymes. It progresses to cover genetic control protein production in prokaryotes using the lac operon , and the to describe and explain the use of transcription factors in plants.
CIE 17.3 Evolution
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CIE 17.3 Evolution

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This lesson recalls Darwin’s Theory of Evolution and discusses how DNA sequences can be used to show evolutionary relationships between species. The lesson then looks at how speciation occurs as a result of Allopatric speciation and Sympatric speciation.
CIE 5.1 Chromosome Structure
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CIE 5.1 Chromosome Structure

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This lesson starts with a recall KS4 chromosome structure. The lesson then progresses into the structure and functions of: DNA; Histones; Chromatids; Centromeres, and Telomeres.
CIE 4.2 Investigating Cell Transport
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CIE 4.2 Investigating Cell Transport

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This lesson is the class practical outlined in the CIE specification. The lesson starts by recalling how to calculate surface area and volume, calculating surface area to volume ratios and then the Investigation into diffusion in different sized cells using agar blocks. The lesson concludes by explaining the relationship between cell size and diffusion rate.
CIE 4.2 Cell Transport
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CIE 4.2 Cell Transport

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This lesson starts by recalling the definition of osmosis and the structure of the cell membrane. The lesson then covers passive transport, active transport, endocytosis and exocytosis and explains the use of carrier and channel proteins in cell membranes.
CIE 4.1 Fluid Mosaic Model of the Cell Membrane
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CIE 4.1 Fluid Mosaic Model of the Cell Membrane

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This less starts with a recall the structure of cell membranes and then progresses into how the fluid mosaic model of membrane structure is used to explain the structure and properties of cell membranes. Later the lesson looks at how the components of the membrane contribute to it´s physical and chemical properties. All resources included.
CIE 15.1 Coordination and Control: Neurones
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CIE 15.1 Coordination and Control: Neurones

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This lesson starts be recalling differences between hormonal and nervous control then revisits KS4 learning on the neurone and the CNS. Sensory, relay and motor neurones are covered, including the finer ultrastructures. All resources included.
CIE 15.1 Muscle Structure
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CIE 15.1 Muscle Structure

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This lesson starts by reviewing the role of the musculoskeletal system and the roles of the skeleton, tendons, ligaments and muscles to bring about movement. Antagonistic muscles and the three types of muscle are also explained, then focusing on straited muscle. Structure of the muscle cell following with details of the myofibrils, T-tubles and sacoplasmic reticulum (covered in more detail in the next lesson. The lesson concludes with an introduction to the roles of actin and myosin, in preparation for the sliding filament theory (next lesson). ).
CIE 15.1 Resting Potential
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CIE 15.1 Resting Potential

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This lesson revisits the role of chemoreceptors in the tongue and then progresses into how resting potential is maintained until a stimulus reaches threshold. The lesson introduces the membrane sodium potassium pump using active transport and the voltage gated channels using facilitated diffusion. There are videos included and a short quiz as a plenary.
CIE 15.1 Action Potential
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CIE 15.1 Action Potential

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This lesson starts with recall of how resting potential is maintained and the functions of the sodium potassium pump and voltage gated channels. The lesson then progresses into the the generation of an AP and the all or nothing response. Repolarisation and hyperpolarisation is covered. PPT is visual and includes videos to embed concepts. All resources are included in the PPT.
CIE 15.1 Impulse Transmission
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CIE 15.1 Impulse Transmission

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This lesson starts with a review of resting and action potential and then progresses into how the impulse moves along the axon using saltatory conduction. Later, factors affecting speed of transmission is covered using diagrams and videos. All resources included.
CIE 15.1 Sensory Receptor Cells
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CIE 15.1 Sensory Receptor Cells

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This lesson starts by recalling the role of receptor cells and then looks at the structure of chemoreceptors on the tongue. The lesson progresses into how an action potential is generated following salt detection. A lot of visuals to embed understanding.
CIE 14.1 Homeostasis: Cell Signalling and Communication
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CIE 14.1 Homeostasis: Cell Signalling and Communication

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This lesson starts with a review of different glands, their hormones and roles that they have in cell communication. The first learning episode looks at the principles of cell signaling and then uses insulin as a worked example. There is a practise exam question included and resources for the starter activity.
CIE Unit 5 Enzymes
missmiermissmier

CIE Unit 5 Enzymes

2 Resources
This bundle consists of two lessons. The first lesson focuses on enzyme structure and mode of function. The second lesson focuses on how temperature and pH changes causes denaturing. There are plenty of videos and student activities to embed learning. The final lesson also includes a CIE specific assessment
CIE 7.2 Transport Mechanisms in Plants: Sugars and Assimilates
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CIE 7.2 Transport Mechanisms in Plants: Sugars and Assimilates

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This lesson starts with a recall of the structure of phloem tubes and their companion cells. Students then learn of the process of translocation from source to sink. Finally, the lesson covers why some parts of the plant may be a source and sink at different times of the year. Fully resourced, exam questions included.
CIE 7.2 Transport Mechanisms in Plants: Water
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CIE 7.2 Transport Mechanisms in Plants: Water

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In this lesson, students learn about transpiration in terms of water potential how water moves from the soil through a plant and into the air. They learn of the three pathways by which water is transported from soil to xylem and the three mechanisms by which water is moved from roots to leaves. Exam questions included.
CIE 16.4 Sexual Reproduction in Humans: Implantation
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CIE 16.4 Sexual Reproduction in Humans: Implantation

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in this lesson the students learn about what happens to the zygote after fertilisation. They then learn about the role of the placenta, umbilical cord, amniotic sac and fluid, and how nutrients and waste products are exchanged between mother and fetus (B). Fully resourced with exam questions.