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BIOLOGY 207 - Dr.McDermid Lecture#16 Independent Assortment Readings: Griffiths et al, 7th Edition: Ch 2, 34-37, Ch 5, 144-145 + Figure 5-7 Problems: Griffiths et al, 7th Edition: Tier 1: Ch 3, #18, 24, 25, 28, 29, 32 Ch 4, #3 Tier 2: Ch 3, #26, 27, 30 Ch 4, #14 Concepts: Mendel’s second law 1. Mendel observed allele pairs, at different gene loci, segregate independently (independent assortment). 2. When independent assortment occurs it results in predictable frequencies of F2 progeny. 3. Test crosses are more effective than F2 cross's to study several genes simultaneously in one cross. Mendel's First Law - Segregation of Alleles Example: Simple monohybrid cross with dominant and recessive alleles: A simple test for Mendelian Inheritance 1) Choose pure lines that show a character difference P1 (R,r) 2) Cross the line --> F1 progeny 3) Cross the F1 individuals (P2) --> F2 progeny Mendel's 2nd Law Independent Assortment Example: Figure 2-9 and 2-10 Locus 1 - Round (R) vs. wrinkled (r) Locus 2 - Yellow (Y) vs. green (y) Parents: - true breeding (pure) lines Round; green x Lecture#16 wrinkled; yellow Page 1 x gametes F1 P2 Chromosome alignment at anaphase I has two equally frequent possibilities Meiosis Result: gametes of four types in equal proportions 4 possible phenotypes Round, Yellow Round, green wrinkled, Yellow ! wrinkled, green Result: Note: - each gene locus acts the same as in a mono-hybrid cross - but no interaction between the two genes that favors the formation of particular gametes What if the parents are: Round, Yellow Lecture#16 x wrinkled, green x Page 2 The cross: Progeny: Note: the above crosses are called F2 crosses If one wants to focus on the genotypes underlying the dominant phenotypes then a test cross should be done. Test cross -> The idea here is to reveal the genotype of the tested unknown parent (AA or Aa) by crossing it with the tester parent. Example of a test cross R? Y? Rr Yy x ( use the RrYy as an example to be tested) rryy (tester individual) (one type) (4 types) Lecture#16 Ratio NOT Ratio Page 3 Suppose the individual to be tested was RRYy instead RR Yy x rryy (one type) (2 types) Ratio ***Test cross reveals - the genotype of the tested individuals - if the two gene loci are assorting independently Independent assortment ______________________________________________________________________________________________ Lecture notes: Copyright © 2002 Heather McDermid and the Department of Biological Sciences, University of Alberta Images are Copyright©2000 by W.H. Freeman & Co. in Griffiths et al, Introduction to Genetic Analysis Lecture#16 Page 4
