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Basics of Genetics DNA, Genes, and Chromosomes Figure 14.1 A genetic cross Cross Fertilization and Peas as Ideal Model Plant Monohybrid Cross • P = parental (true breeding) • F1 = first generation offspring • F2= second generation (made from F1) Law of Dominance • In two true breeding plants for opposing traits in P generation, all offspring in F1 generation will have one of those traits (dominant trait) • Recessive trait hidden in F1 generation Table 14.1 The Results of Mendel’s F1 Crosses for Seven Characters in Pea Plants What is the approximate ratio of dominant : recessive traits in the F1 generation when 2 homozygotes (one dominant, one recessive) are crossed? Figure 14.x2 Round and wrinkled peas Law of Segregation • Mendel suggested that alleles separate during formation of the sex cells, or gametes • Each somatic cell has 2 copies of each gene… • Each sex cell has only one copy… • The two copies must separate during formation of sex cells (meiosis!) • If the sex cell only has one copy of each gene, how is chromosome number restored in somatic cells? Figure 14.4 Mendel’s law of segregation (Layer 2) Law of Segregation Why isn’t there this type of segregation (with products with different chromosomes) in mitosis– the chromosomes still separate at metaphase? P = purple p = white PP P p Pp Gametes G g What pp types of gametes must both organisms in the P generation give? Figure 14.5 Genotype versus phenotype Genotype vs. Phenotype **Genotype = genetic makeup **Phenotype = outward appearance /trait expression **Just because you have a gene for a trait, doesn’t mean you always express it (carriers) Gamete Assortment • Does the segregation of a pair of alleles affect the segregation of another pair of alleles? • EXAMPLE: A pregnant female already has 1 child. Imagine that there are only 2 potential eye colors (blue and brown) and hair colors (brown and blonde). Her first child has blonde hair and blue eyes. Is it possible that she can have a child with blonde hair and brown eyes? Why or why not? What if they always stayed together? P (gametes) F1 (gametes) F2 RY and ry stayed together Law of Independent Assortment • We don’t see this…The offspring have a combination of traits from both parents! • How can we explain this? Independent Assortment P (gametes) F1 (gametes) (FOIL) Figure 14.7 Testing two hypotheses for segregation in a dihybrid cross Summary • Genes control heredity and are passed down from each parent • When 2 or more alleles exist for a single trait, some may be dominant and some may be recessive • The 2 alleles are segregated during formation of gametes • Genes assort independently of each other Punnett Squares– Monohybrid Crosses • Do pg. 10 #1 in your packets independently ! Testcrosses Can you tell the genotype of this flower (assuming purple color is a dominant trait in flowers) just by looking at it? Figure 14.6 A testcross Testcross •Dominant phenotype with unknown genotype crossed with homozygous recessive Dihybrid Cross • Same as monohybrid cross– just more boxes • Be sure to combine all possible gametes (independent assortment)
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