SlideMyBio
2 Followers
Las Palmas de Gran Canaria, Las Palmas, Spain
About the store
Welcome to my store! Here you’ll find high-quality, ready-to-use biology resources that combine accurate science with engaging, modern design. Every deck is built to save teachers and tutors valuable preparation time while helping students grasp complex ideas with clarity. My core focus is A-Level, AP Biology, and upper-secondary courses, with specialised materials available for advanced topics such as CRISPR. I bring over a decade of tutoring experience, including teaching at the University of Cambridge and extensive private tutoring. I’ve supported students across a wide range of goals, from achieving top grades in exams to securing university places in life sciences.
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AP® Biology Unit 1. Chemistry of Life (Complete Unit Bundle)
This bundle gives you a complete, exam‑aligned deck for the Chemistry of Life unit, ready to drop into Zoom, Google Classroom or a face‑to‑face lesson tomorrow. Downloads are delivered instantly. What's covered1.1 Structure of Water & Hydrogen Bonding 1.2 Elements of Life 1.3 Introduction to Macromolecules 1.4 Carbohydrates 1.5 Lipids 1.6 Nucleic Acids 1.7 Proteins What You’ll GetOver 100 professionally designed slides covering all topics in AP®︎ Biology Unit 1: Chemistry of Life.Ready-to-teac
11th - 12th
Biology
AP® Biology Unit 4. Cell Communication & the Cell Cycle (Complete Unit Bundle)
This bundle covers the full AP Biology Unit 4, helping students understand how cells communicate, transmit signals, regulate responses, maintain homeostasis through feedback, and control the cell cycle. Across Topics 4.1 to 4.6, students explore cell communication, signal transduction, feedback mechanisms, the cell cycle, and regulation of cell division, with clear explanations and AP Biology examples throughout. The lessons are designed to build logically across the unit, making complex ideas e
11th - 12th
Biology
AP® Biology Unit 2.10 Origins of Cell Compartmentalization
DescriptionThis deck explains the origins of cell compartmentalization, helping students understand how eukaryotic cells became more complex through internal membranes and endosymbiosis. Students learn how prokaryotic and eukaryotic cells differ in compartmentalization, how mitochondria and chloroplasts likely evolved from once free-living prokaryotes, and how evidence such as circular DNA, ribosomes, double membranes, and binary-fission-like division supports the endosymbiotic theory. The lesso
11th - 12th
Biology
AP® Biology Unit 2.9 Cell Compartmentalization
DescriptionThis deck explains cell compartmentalization, helping students understand how eukaryotic cells use internal membranes and membrane-bound organelles to organize cellular processes. Students learn how organelles such as the nucleus, endoplasmic reticulum, Golgi apparatus, vesicles, lysosomes, vacuoles, mitochondria, and chloroplasts create specialized internal environments that support specific functions. The lesson also connects compartmentalization to enzyme activity, surface area, ce
11th - 12th
Biology
AP® Biology Unit 2.6 Facilitated Diffusion
This deck explains facilitated diffusion, helping students understand how cells move specific substances across membranes without using ATP. Students learn how transport proteins allow polar molecules and ions to cross the phospholipid bilayer, how channel proteins and carrier proteins differ, and how concentration gradients drive passive transport. The lesson also connects facilitated diffusion to membrane selectivity, transport specificity, and the movement of biologically important molecules
11th - 12th
Biology
AP® Biology Unit 5.5 Environmental effects on phenotype
This deck explains how environmental conditions can influence phenotype, helping students understand that observable traits are often shaped by both genotype and environment. Students learn how environmental factors such as temperature, light, nutrition, pH, and soil conditions can affect gene expression, how phenotypic plasticity allows the same genotype to produce different phenotypes in different environments, and why a change in phenotype does not automatically mean a mutation has occurred.
11th - 12th
Biology
AP® Biology Unit 5.4 Non-Mendelian Genetics
This deck explains non-Mendelian inheritance, helping students understand why some traits do not follow the simple dominant-recessive patterns described by Mendel. Students learn how incomplete dominance and codominance change the heterozygous phenotype, how linked genes can alter expected inheritance ratios and be used in gene mapping, and how sex-linked, pleiotropic, and non-nuclear inheritance patterns differ from standard autosomal Mendelian crosses. The lesson also shows students how observ
11th - 12th
Biology
AP® Biology Unit 4.6 Regulation of the cell cycle
This deck explains how the cell cycle is regulated, showing how cells use internal checkpoints and external signals to control division and maintain healthy growth. Students learn how cyclins and cyclin-dependent kinases (CDKs) regulate progression through the cell cycle, how the G₁/S, G₂/M, and spindle checkpoints prevent damaged or incomplete cells from dividing, and how failures in regulation can lead to apoptosis or cancer. The lesson also explores key AP Biology concepts such as growth fact
12th
Biology
AP® Biology Unit 4.4 Feedback
This deck explains feedback mechanisms, showing how organisms regulate internal conditions and respond to change. Students learn how negative feedback helps maintain homeostasis by reducing the original stimulus, while positive feedback amplifies biological processes and drives them forward. The lesson compares both types of feedback and applies them to key AP Biology examples, including blood glucose regulation by insulin and glucagon, childbirth, lactation, and fruit ripening. What’s included:
12th
Biology
AP® Biology Unit 4.3 Signal Transduction Pathways
This deck explores signal transduction pathways, showing how cells convert signals into specific cellular responses. Students learn how signaling pathways can lead to rapid changes in cell function, changes in gene expression, or programmed cell death, and they examine why the same signal can produce different effects in different target cells. The lesson also explains how changes in signaling molecules, receptors, or intracellular pathway components can alter pathway activity, with clear AP Bio
12th
Biology
AP® Biology Unit 4.2 Introduction to signal transduction
This deck introduces signal transduction, the process by which cells convert an external signal into a specific internal response. Students learn the three stages of cell signaling, reception, transduction, and response, and explore how ligand binding activates pathways inside the cell. The lesson compares cell-surface and intracellular receptors, explains the role of G protein-coupled receptors and second messengers such as cAMP, and shows how phosphorylation cascades amplify signals to produce
12th
Biology
AP® Biology Unit 4.1 Cell Communication
This deck introduces cell communication, the process by which cells detect and respond to signals from their environment and from other cells. Students learn how communication allows multicellular organisms to coordinate activities across tissues and organ systems, and they compare the major signaling types covered in AP Biology: direct contact, paracrine signaling, synaptic signaling, and endocrine signaling. The lesson also emphasizes target-cell specificity, helping students understand why on
12th
Biology
CRISPR: Epigenetic Editing
CRISPR: Epigenetic Editing: Programmable Control of Gene ExpressionThis ready-to-teach slide deck introduces students to one of the most exciting frontiers of modern genetics: CRISPR-based epigenetic editing. Designed for A-level, AP Biology, IB, and advanced high-school or early university learners, it explains how scientists can switch genes on or off without changing the DNA sequence. Filled with student-friendly explanations, clean visuals, and built-in quizzes, this resource makes a comp
11th - 12th, Higher Education
Biology
AP® Biology Unit 1.6 Nucleic Acids
This deck connects DNA and RNA structure to their critical functions. It guides students through nucleotide building blocks, phosphodiester bonds, base-pairing rules, and how information storage and transfer underpin heredity and gene expression. What’s included:18 professionally designed slides (16:9) in PDF format. Coverage of nucleotide structure, DNA vs. RNA, base pairing, directionality, and ATP’s role in cells.Clear explanations & diagrams.Assessment: 6 AP-style MCQs (with answer key) + 2
11th - 12th
Biology
Also included in: AP® Biology Unit 1. Chemistry of Life (Complete Unit Bundle)
AP® Biology Unit 2.5 Membrane Transport
This deck explores how cells move materials across their membranes to maintain homeostasis. Students learn the key differences between passive and active transport, the roles of diffusion, osmosis, and membrane proteins, and how processes like endocytosis and exocytosis enable communication and nutrient balance. Real-world examples, such as the sodium–potassium pump and cystic fibrosis, connect transport mechanisms to cellular health and disease. What’s included:18 professionally designed slides
10th - 12th
Biology
AP® Biology Unit 2.1 Cell structure and function
This resource covers everything students need to know for Unit 2.1 Cell structure and function, including: The principles of the cell theory and differences between prokaryotic and eukaryotic cellsStructure and function of major organelles: nucleus, ER, Golgi, lysosomes (including their role in apoptosis), vacuoles, mitochondria, and chloroplastsThe endomembrane system as an integrated network for protein and lipid processingEvidence for the endosymbiotic theory and evolutionary links between p
11th - 12th
Biology
AP® Biology Unit 4.5 Cell Cycle
This deck breaks down the cell cycle, the essential process by which eukaryotic cells grow, replicate their DNA, and divide to produce identical daughter cells. Students explore the sequence of events in interphase (G₁, S, and G₂) and mitosis, understanding how each stage prepares the cell for accurate division. The lesson also connects structure to data, showing how scientists measure cell-cycle timing using real mitotic index calculations. What’s included:20 professionally designed slides (16:
11th - 12th
Biology
AP® Biology Unit 2.4 Membrane permeability
This deck unpacks how the plasma membrane’s selective permeability underpins cell survival. Students explore why some molecules cross freely while others require transport proteins, and how factors like size, polarity, lipid composition, cholesterol, and temperature influence diffusion. What’s included:16 professionally designed slides (16:9) in PDF formatClear explanations and concise diagramsAssessment: 6 AP-style MCQs (with answer key) + 2 FRQ-style promptsWhy you’ll love it:Created by a Uni
11th - 12th
Biology
Introduction to CRISPR
CRISPR: The Gene Editing RevolutionThis ready-to-teach slide deck introduces students to one of the most transformative tools in modern biology. Perfect for students at A-level, AP Biology, IB, or equivalent advanced high school/early college courses, it covers the origins of CRISPR in bacteria, the step-by-step editing mechanism, DNA repair pathways, applications in medicine and agriculture, and key ethical debates. With clear diagrams, concise explanations, and built-in quizzes & discussion
11th - 12th, Higher Education
Biology
AP® Biology Unit 1.4 Carbohydrates
This focused deck walks through the structure → bond → function story of carbohydrates, from monosaccharides to starch, glycogen, and cellulose, showing how linkage type and branching determine digestibility and biological roles. What’s included:17 professionally designed slides (16:9) in PDF format.Clear explanations & diagrams: (CH₂O)ₙ basics, ring forms, dehydration synthesis vs hydrolysis, α-1,4 / α-1,6 vs β-1,4 linkages, and a side-by-side table comparing starch, glycogen, cellulose.Assess
11th - 12th
Biology
Also included in: AP® Biology Unit 1. Chemistry of Life (Complete Unit Bundle)
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About the store
Experience
Welcome to my store! Here you’ll find high-quality, ready-to-use biology resources that combine accurate science with engaging, modern design. Every deck is built to save teachers and tutors valuable preparation time while helping students grasp complex ideas with clarity. My core focus is A-Level, AP Biology, and upper-secondary courses, with specialised materials available for advanced topics such as CRISPR. I bring over a decade of tutoring experience, including teaching at the University of Cambridge and extensive private tutoring. I’ve supported students across a wide range of goals, from achieving top grades in exams to securing university places in life sciences.
Teaching style
I specialise in breaking down complex biological processes into logical, easy-to-follow steps without sacrificing depth or accuracy. My resources are designed to strike the balance between rigour and accessibility: clear explanations, carefully sequenced learning, and visuals that truly support understanding.
Awards & shining teacher moments
Highlights of my teaching career include guiding students to secure places at leading universities and seeing learners gain confidence in topics they once found overwhelming. One of the best compliments I often hear is: “This finally makes sense.”
My own education history
I hold a degree in Molecular Cell Biology, a Master’s in Research, and a PhD in Genetics from the University of Cambridge (UK). My academic background ensures that every resource is grounded in scientific accuracy, while my teaching experience keeps them practical and classroom-ready.
Additional biographical information
The idea for this store grew out of my own needs as a tutor. I found that most of my time was spent preparing lessons and struggling to find materials that were both accurate and visually engaging. I began creating my own, and they transformed my workflow. Now, instead of spending Sunday evenings building slides from scratch, I can focus on teaching. I’m excited to share these resources so other teachers and tutors can enjoy the same freedom.
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