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Transcript
No Brain Too Small BIOLOGY Genetic Variation AS91157: 4 Credits External This achievement standard involves demonstrating understanding of genetic variation and change. Achievement Achievement with Merit Achievement with Excellence Demonstrate understanding of genetic variation and change. Demonstrate in-depth understanding of genetic variation and change. Demonstrate comprehensive understanding of genetic variation and change. Demonstrate understanding involves defining, using annotated diagrams or models to describe, and describing characteristics of, or providing an account of, genetic variation and change. Demonstrate in-depth understanding involves providing reasons as to how or why genetic variation and change occurs. Demonstrate comprehensive understanding involves linking biological ideas about genetic variation and change. The discussion of ideas may involve justifying, relating, evaluating, comparing and contrasting, or analysing. Genetic variation and change involves the following concepts: sources of variation within a gene pool factors that cause changes to the allele frequency in a gene pool. Biological ideas and processes relating to sources of variation within a gene pool are selected from: mutation as a source of new alleles independent assortment, segregation and crossing over during meiosis monohybrid inheritance to show the effect of co-dominance, incomplete dominance, lethal alleles, and multiple alleles dihybrid inheritance with complete dominance the effect of crossing over and linked genes on dihybrid inheritance. Biological ideas and processes relating to factors affecting allele frequencies in a gene pool are selected from: natural selection migration genetic drift. No Brain Too Small BIOLOGY Key words: These are the words that you are expected to understand when used in questions and be able to use in your answers. Allele Meiosis Variation Bottle neck effect Founder effect Gene flow Gene frequency Immigration Population Recombination / crossing over Species Cytosine Haploid Double helix Mitosis Recessive Dominant Thymine Chiasma Diploid Somatic Homologous pair Recombination Genotype Directional selection Stabilising selection Heterozygous Centromere Segregation Gene Mutation Adaptation Evolution Gene pool Genetic drift Genetic equilibrium Mate selection Natural selection Speciation Adenine DNA Diploid Gene Monohybrid Test cross Sex chromosome Autosome Chromatid Gametic Selective pressure Locus Semi-conservative Phenotype Disruptive selection Allele frequency Homozygous Independent assortment nucleotide
