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Biology comp 2024-2025 (Approx 40 questions) - Coggle Diagram
Biology comp 2024-2025 (Approx 40 questions)
Genetics & Heredity (≈15–22 questions)
DNA → RNA → Protein & Mutations (≈7–11 q)
Explain genetic flow (DNA → RNA → protein). (3–4 q)
Link genotype to phenotype. (1–3 q)
Describe mutation types. (1–2 q)
Describe DNA copying mechanisms. (2–3 q)
Explain genotype → phenotype changes. (1–2 q)
Inheritance Patterns (≈6–10 q)
Explain deviations from Mendel. (1–2 q)
Genotype → multiple phenotypes (environment). (1–2 q)
Apply Mendel’s laws. (3–4 q)
Chromosomal inheritance → variation. (1–2 q)
Meiosis & Genetic Variation (≈3–6 q)
Explain genetic diversity via meiosis. (1–2 q)
Compare mitosis vs. meiosis phases/outcomes. (1–2 q)
Explain how meiosis transmits chromosomes. (1–2 q) PMAT1 & 2
Cell Biology (≈12–19 questions)
Enzymes & Energy Pathways (≈6–11 q)
Enzyme structure → function changes. (1–2 q)
Photosynthesis
photosynthetic processes that allow
organisms to capture and store energy (2-3q)
Processes capturing Light energy → biological molecules. (1–3 q)
Enzymes → reaction rates. (1–2 q)
Energy use from macromolecules (respiration). (1–3 q
Enzyme properties. (1–2 q)
Energy → cellular functions. (1–3 q)
Cell Cycle & Signaling (≈3–7 q)
Environment → cellular response. (1–2 q) Cell cycle regulation, homeostasis, net ion/water movement
Cell cycle events. (1–3 q) Interphase-Mphase
Mitosis → chromosome transmission. (1–2 q) PMAT
Macromolecules & Membrane Transport (≈7–12 q)
Solute/water balance mechanisms. (1–2 q)
Molecule structure → membrane passage. (1–2 q)
Exchange of molecules (1-2q)
Concentration gradients → movement of molecules. (1–2 q)
Monomer properties. (1–2 q)
Ion/molecule transport processes. (1–2 q)
Describe macromolecule structure/function. (2–3 q)
Evolution & Ecology (≈8–13 questions)
Evidence of Evolution (≈3–6 q)
Shared molecular/cellular features. (1–2 q)
Eukaryote common ancestry. (1–2 q)
Morphological/biochemical evidence. (1–2 q)
Ecological Terms & Relationships (≈2–6 q)
Competition, symbiosis, predation. 1–3 q)
Adaptations, invasive species, ecological homeostasis. (1–3 q)
Natural Selection & Population Genetics (≈7–12 q)
How Environment → evolutionary changes. (1–2 q)
Random occurrences → genetic makeup. (1–2 q)
Phenotypic variation importance. (1–2 q)
Natural selection → populations. (2–3 q)
Causes of natural selection. (1–2 q)
Changes to Allele frequency conditions and effect on population. (2–4 q)