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Genetics: Part III Extending Mendel Figure 14.8 EXPERIMENT YYRR P Generation yyrr yr Gametes YR F1 Generation Predictions YyRr Hypothesis of dependent assortment Hypothesis of independent assortment Sperm or Predicted offspring of F2 generation 1/ Sperm 1/ 2 YR 1/ 2 2 YR YyRr YYRR Eggs 1/ 2 1/ 4 YR 4 Yr 4 yR 4 yr Eggs yr YyRr 3/ yyrr 1/ 4 YR 1/ 4 1/ Yr 4 yR 1/ 4 yr yr 1/ 1/ 4 1/ YYRR YYRr YyRR YyRr YYRr YYrr YyRr Yyrr YyRR YyRr yyRR yyRr YyRr Yyrr yyRr yyrr 4 Phenotypic ratio 3:1 1/ 9/ 16 3/ 16 3/ 16 1/ 16 Phenotypic ratio 9:3:3:1 RESULTS 315 108 101 32 Phenotypic ratio approximately 9:3:3:1 Which of these genes are most likely to segregate as a unit? 3 Which of these genes are most likely to segregate as a unit? 4 Curriculum Framework 3.A.3.b.2 Genes that are adjacent and close to each other on the same chromosome tend to move as a unit; the probability that they will segregate as a unit is a function of the distance between them. 5 In Drosophila….. Traits for wings, leg length, and eye color are carried on the same chromosome. These genes are linked together on the same chromosome and will sort into the same gamete. 6 7 8 9 10 11 12 13 Crossover Value 14 Calculating Crossover expected unexpecte d 15 Extending Mendelian Genetics for a Single Gene • Inheritance of characters by a single gene may deviate from simple Mendelian patterns in the following situations: – When alleles are not completely dominant or recessive – When a gene has more than two alleles – When a gene produces multiple phenotypes Degrees of Dominance • Complete dominance occurs when phenotypes of the heterozygote and dominant homozygote are identical • In incomplete dominance, the phenotype of F1 hybrids is somewhere between the phenotypes of the two parental varieties • In codominance, two dominant alleles affect the phenotype in separate, distinguishable ways Figure 14.10-1 P Generation White CWCW Red CRCR Gametes CR CW Figure 14.10-2 P Generation White CWCW Red CRCR Gametes CR CW F1 Generation Gametes 1/2 CR Pink CRCW 1/ 2 CW Figure 14.10-3 P Generation White CWCW Red CRCR CR Gametes CW F1 Generation Pink CRCW 1/ Gametes 1/2 CR 2 CW Sperm F2 Generation 1/ 2 CR 1/ 2 CW Eggs 1/ 2 CR 1/ 2 CW CRCR CRCW CRCW CWCW Multiple Alleles 21 Figure 14.11 (a) The three alleles for the ABO blood groups and their carbohydrates IA Allele Carbohydrate IB i none B A (b) Blood group genotypes and phenotypes Genotype IAIA or IAi IBIB or IBi IAIB ii A B AB O Red blood cell appearance Phenotype (blood group) Key to blood type genotypes 23 Solve It • Sara, who is type O, claims that Ira is the father of her baby. The baby has type O blood. Ira is blood type B. Is it possible that Ira is the father? 24 Solve It 25 Curriculum Framework • 3.A.4: The inheritance pattern of many traits cannot be explained by simple Mendelian genetics. a. Many traits are the product of multiple genes and/or physiological processes. 1. Patterns of inheritance of many traits do not follow ratios predicted by Mendel’s laws and can be identified by quantitative analysis, where observed phenotypic ratios statistically differ from the predicted ratios. 26 Polygenic Inheritance Figure 14.13 AaBbCc AaBbCc Sperm 1/ 1/ 8 8 1/ 1/ Eggs 8 1/ 1/ 8 8 1/ 8 1/ 1/ 8 8 8 8 1/ 8 1/ 8 1/ 1/ 8 1/ 8 1/ 8 1/ 8 Phenotypes: Number of dark-skin alleles: 1/ 64 0 6/ 64 1 15/ 64 2 20/ 64 3 15/ 64 4 6/ 64 5 1/ 64 6 Influence of Environment Created by: Debra Richards Coordinator of K-12 Science Programs Bryan ISD Bryan, TX