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Download RF (mu) = NPD + ½(T)/total x 100
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processes and mechanisms Sexual Selection evolutionary events objects acts through Individuals causing acts through Natural Selection evidences Differential Reproduction experiments and field studies builds can lead to Development provides recipes for Genes (genomes) dna/protein sequences neutral changes Changes in Gene Frequency affects leading to can lead to Generation of Genetic Diversity anatomy and fossils Populations can separate Speciation biogeography Geographical Isolation Genetic Drift affects producing Evolutionary Change cellular and developmental processes mutagen action Mutations Independent Assortment Gametes: A B a b A b a B Gametes: ab Q: How many genetic combinations in gametes can be produced if an individual is heterozygous for alleles at only one locus per chromosome and has 22 somatic chromosome pairs? A: 2 alleles on each of 22 chromosome pairs = 222 Q: Without genetic crossing over, how many genetic combinations in gametes can be produced if an individual is heterozygous for alleles at 2 loci (or more) per chromosome and has 22 somatic chromosome pairs? A: 4 alleles on each of 22 chromosome pairs = 222 Q: Why are these numbers the same? crossing over RF (m.u.) = NPD + ½(T)/total x 100 • effects of recombination on chromosomes within a family • grandson inherits chromosome regions from all four of his grandparents’ chromosomes • siblings inherit different chromosome regions from their parents Q: How many genetic combinations in gametes can be produced if an individual is heterozygous for alleles at only one locus per chromosome and has 22 somatic chromosome pairs? A: 2 alleles on each of 22 chromosome pairs = 222 Q: With genetic crossing over, how many genetic combinations in gametes can be produced if an individual is heterozygous for alleles at 2 loci (or more) per chromosome and has 22 somatic chromosome pairs? A: 4 alleles on each of 22 chromosome pairs = 244 Q: Why are these numbers different? Speciation - Allopatric - Sympatric Prezygotic isolating mechanisms • Ecological isolation: Species occupy different habitats. The lion and tiger overlapped in India until 150 years ago, but the lion lived in open grassland and the tiger in forest. Consequently, the two species did not hybridize in nature (although they sometimes do in zoos). • Temporal isolation: Species breed at different times. In North America, five frog species of the genus Rana differ in the time of their peak breeding activity. • Behavioral isolation: Species engage in distinct courtship and mating rituals (see Figure 1). Mechanical isolation: Interbreeding is prevented by structural or molecular blockage of the formation of the zygote. Mechanisms include the inability of the sperm to bind to the egg in animals, or the female reproductive organ of a plant preventing the wrong pollinator from landing. ** All of the above prevent the formation of hybrid zygotes. ** Postzygotic isolating mechanisms • Hybrid inviability. Development of the zygote proceeds abnormally and the hybrid is aborted. (For instance, the hybrid egg formed from the mating of a sheep and a goat will die early in development.) • Hybrid sterility. The hybrid is healthy but sterile. (The mule, the hybrid offspring of a donkey and a mare, is sterile; it is unable to produce viable gametes because the chromosomes inherited from its parents do not pair and cross over correctly during meiosis • Hybrid is healthy and fertile, but less fit, or infertility appears in later generations (as witnessed in laboratory crosses of fruit flies, where the offspring of second-generation hybrids are weak and usually cannot produce viable offspring). • Ecological ** Post-zygotic mechanisms are those in which hybrid zygotes fail, develop abnormally, or cannot self-reproduce and establish viable populations in nature. **