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Chapter 9 Patterns of Inheritance Lectures by Gregory Ahearn University of North Florida Copyright © 2009 Pearson Education, Inc. 9.1 What Is The Physical Basis Of Inheritance? Inheritance occurs when genes are transmitted from parent to offspring. • The units of inheritance are genes, which are segments of DNA of variable length. Copyright © 2009 Pearson Education Inc. 9.1 What Is The Physical Basis Of Inheritance? Genes are segments of DNA at specific locations on chromosomes. • A gene’s physical location on a chromosome is called its locus. • Each member of a pair of homologous chromosomes carries the same genes, located at the same loci. • Different versions of a gene at a given locus are called alleles. Copyright © 2009 Pearson Education Inc. 9.1 What Is The Physical Basis Of Inheritance? The relationship among genes, alleles, and chromosomes a pair of homologous chromosomes Both chromosomes carry the same allele of the gene at this locus; the organism is homozygous at this locus gene loci This locus contains another gene for which the organism is homozygous Each chromosome carries a different allele of this gene, so the organism is heterozygous at this locus the chromosome from the male parent Copyright © 2009 Pearson Education Inc. the chromosome from the female parent Fig. 9-1 9.1 What Is The Physical Basis Of Inheritance? Mutations are the source of alleles. • Differences in alleles at a given locus are due to mutations at that gene. • If a mutation occurs in the cells that become sperm or eggs, it can be passed on from parent to offspring. Copyright © 2009 Pearson Education Inc. 9.1 What Is The Physical Basis Of Inheritance? An organism’s two alleles may be the same or different. • A diploid organism has pairs of homologous chromosomes with two copies of each gene at a given locus. • If both homologous chromosomes have the same allele at a locus, the organism is said to be homozygous. Copyright © 2009 Pearson Education Inc. 9.1 What Is The Physical Basis Of Inheritance? An organism’s two alleles may be the same or different (continued). • If two homologous chromosomes have different alleles at a locus, the organism is heterozygous at that locus. • The gametes of a homozygous individual are all the same at a particular locus, while gametes of a heterozygous individual would contain half one allele and half the other allele. Copyright © 2009 Pearson Education Inc. 9.2 How Were The Principles Of Inheritance Discovered? The patterns of inheritance were discovered by an Austrian monk, Gregor Mendel. Fig. 9-2 Copyright © 2009 Pearson Education Inc. 9.2 How Were The Principles Of Inheritance Discovered? Doing it right: the secrets of Mendel’s success • Mendel was the first geneticist to employ three key steps in his experimentation: • Choosing the right organism for the work • Designing and performing experiments correctly • Analyzing the data properly Copyright © 2009 Pearson Education Inc. 9.2 How Were The Principles Of Inheritance Discovered? Mendel chose edible pea as the experimental subject for his experiments in inheritance. • Pea egg cells in a pea flower fertilized by sperm from the same flower is called selffertilization. • When sperm from one organism fertilizes eggs from a different organism, the process is called cross-fertilization. Copyright © 2009 Pearson Education Inc. 9.2 How Were The Principles Of Inheritance Discovered? Mendel chose edible pea as the experimental subject for his experiments in inheritance (continued). • Mendel studied individual characteristics of pea plants, such as flower color; these characteristics are called traits. • He followed the inheritance of these traits for several generations, counting the numbers of offspring with each type of trait. Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? True-breeding traits of organisms, such as purple flower color, are always inherited by all of their offspring that result from selffertilization. • In one experiment, Mendel cross-fertilized white-flowered plants with purple-flowered plants. • When he grew the resulting seeds, he found all the first-generation offspring, or the F1 generation, produced purple flowers. • What happened to the white color? Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? Cross of pea plants that are true-breeding for white or purple flowers pollen Parental generation (P) pollen cross-fertilize true-breeding, purple-flowered plant true-breeding, white-flowered plant First-generation offspring (F1) all purple-flowered plants Fig. 9-4 Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? The F2 generation • Next, Mendel allowed the F1 flowers to selffertilize, collected the seeds, and grew the second generation, called the F2 generation. • Flowers in the F2 generation were threefourths purple and one-fourth white, in a ratio of 3 purple to 1 white. • This showed that the gene for white flowers was “hidden” in the F1 generation, but appeared again in the F2 generation. Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? Cross of F1 plants with purple flowers Firstgeneration offspring (F1) self-fertilize Secondgeneration offspring (F2) 3/4 purple Copyright © 2009 Pearson Education Inc. 1/4 white Fig. 9-5 9.3 How Are Single Traits Inherited? PLAY Animation—Crosses Involving Single Traits Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? All the white-flowered plants in the F2 generation only produced additional whiteflowered plants. Purple-flowered plants were of two types: • About ⅔ were true-breeding for purple, while ⅔ produced both purple- and white-flowered offspring (ratio 3 purple/1 white). • Therefore, the F2 generation included ¼ truebreeding purple plants, ½ hybrid purple, and ¼ true-breeding white plants. Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? The inheritance of dominant and recessive alleles on homologous chromosomes can explain the results of Mendel’s crosses. • Mendel’s results allow us to develop a fivepart hypothesis to explain the inheritance of single traits. 1.Each trait is determined by pairs of distinct physical units called genes. • There are two alleles for each gene, one on each homologous chromosome. Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? 2. When two different alleles are present in an organism, the dominant allele may mask the expression of the recessive allele; however, the recessive allele is still present. 3. The two alleles of a gene segregate (separate) from one another during meiosis; this is known as Mendel’s law of segregation. 4. Which allele ends up in any given gamete is determined by chance. Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? 5. True-breeding (homozygous) organisms have two copies of the same allele for a given gene; hybrid (heterozygous) organisms have two different alleles for a given gene. Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? The distribution of alleles in gametes homozygous parent A A gametes A A (a) Gametes produced by a homozygous parent heterozygous parent A a gametes A a (b) Gametes produced by a heterozygous parent Fig. 9-6 Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? In pea plants, purple is dominant to white. • Letters can be used to describe the alleles (P is for the dominant allele; p is for the recessive allele). • Homozygous purple plants are PP; homozygous white plants are pp. Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? Homozygous purple plants are PP; homozygous white plants are pp. purple parent PP P + P all P sperm and eggs white parent pp p + p all p sperm and eggs (a) Gametes produced by homozygous parents Fig. 9-7a Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? F1 plants were produced by P and p gametes, making Pp F1 hybrid offspring. sperm P eggs + F1 offspring p Pp P Pp or p + (b) Fusion of gametes produces F1 offspring Fig. 9-7b Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? Next, Mendel crossed two F1 hybrid plants (Pp x Pp). • This cross made three types of F2 offspring, with the following allele composition • ¼ were PP; ½ were Pp; ¼ were pp. Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? Fusion of gametes from the F1 generation produces F2 offspring. gametes from F1 Pp plants sperm F2 offspring eggs P + P PP P + p Pp p + P Pp p + p pp (c) Fusion of gametes from the F1 generation produces F2 offspring Fig. 9-7c Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? Mendel’s hypothesis was that two plants may look alike, called its phenotype, but have a different allele composition, called its genotype. In this case, purple plants had PP or Pp genotypes, but their phenotype (purple color) was the same. The F2 generation could be described as having three genotypes (¼ PP, ½ Pp, and ¼ pp) and two phenotypes (¾ purple and ¼ white). Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? Simple “genetic bookkeeping” can predict the genotypes and phenotypes of offspring. • The Punnett square method is a convenient way to predict the genotypes and phenotypes of offspring. Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? The Punnett square method Pp self-fertilize P 1 2 1 2 1 2 p P sperm 1 2 eggs 1 4 PP 1 4 Pp 1 4 pP 1 4 pp p Fig. 9-8 Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? PLAY Animation—Punnett Square Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? Mendel’s hypothesis can predict the outcome of new types of single-trait crosses. • Mendel predicted the outcome of crossfertilizing Pp plants with homozygous recessive plants (pp)—there should be equal numbers of Pp (purple) and pp (white) offspring. Copyright © 2009 Pearson Education Inc. 9.3 How Are Single Traits Inherited? A Punnet square shows how this “test cross” results in the predicted offspring. pollen PP or Pp pp all eggs sperm unknown if PP if Pp p all sperm p P p eggs 1 2 P 1 2 Pp sperm all Pp 1 2 eggs p 1 2 pp Fig. 9-9 Copyright © 2009 Pearson Education Inc. 9.4 How Are Multiple Traits Inherited? Mendel next crossed pea plants that differed in two traits, such as seed color (yellow or green) and seed shape (smooth or wrinkled). • He knew from previous crosses that smooth and yellow were both dominant traits in peas. • His first cross was a true-breeding plant with smooth, yellow seeds (SSYY) to a truebreeding plant with wrinkled, green seeds (ssyy). Copyright © 2009 Pearson Education Inc. 9.4 How Are Multiple Traits Inherited? Traits of pea plants studied by Gregor Mendel Trait Dominant form Recessive form Seed shape smooth wrinkled Seed color yellow green Pod shape inflated constricted Pod color green yellow purple white Flower color Flower locaat leaf tion junctions Plant size tall (about 6 feet) at tips of branches dwarf (about 8 to 16 inches) Fig. 9-10 Copyright © 2009 Pearson Education Inc. 9.4 How Are Multiple Traits Inherited? All the offspring of this cross (F1 generation) were SsYy and had smooth, yellow seeds (both dominant traits). F1 plants were allowed to self-fertilize and produced F2 offspring in the phenotypic ratio 9:3:3:1. Copyright © 2009 Pearson Education Inc. 9.4 How Are Multiple Traits Inherited? Mendel concluded that multiple traits are inherited independently. • Mendel realized that these results could be explained if the genes for seed color and seed shape were inherited independently. • The independent inheritance of two or more distinct traits is called the law of independent assortment. • Multiple traits are inherited independently because the alleles of one gene are distributed to gametes independently of the alleles of other genes. Copyright © 2009 Pearson Education Inc. 9.4 How Are Multiple Traits Inherited? Predicting genotypes and phenotypes SsYy self-fertilize eggs 1 SY 4 sperm 1 Sy 4 1 sY 4 1 sy 4 1 SY 4 1 Sy 4 1 sY 4 1 16 SSYY 1 16 SSYy 1 16 SsYY 1 16 SsYy 1 16 SSyY 1 16 SSyy 1 16 SsyY 1 16 Ssyy 1 16 sSYY 1 16 sSYy 1 16 ssYY 1 16 ssYy 1 16 sSyY 1 16 sSyy 1 16 ssyY 1 16 ssyy 1 4 sy Fig. 9-11 Copyright © 2009 Pearson Education Inc. 9.4 How Are Multiple Traits Inherited? PLAY Animation—Multiple Traits PLAY Animation—Multiple Traits Copyright © 2009 Pearson Education Inc. 9.4 How Are Multiple Traits Inherited? Independent assortment of alleles S pairs of alleles on homologous chromosomes in diploid cells s Y y chromosomes replicate S Y s y replicated homologues pair during metaphase S of meiosis I, orienting like this or like this s y Y meiosis I S Y s y S y s Y S Y s y S y s Y meiosis II S S s Y Y SY S s y y sy s S y y s Y Y Sy sY independent assortment produces four equally likely allele combinations during meiosis Fig. 9-12 Copyright © 2009 Pearson Education Inc. 9.4 How Are Multiple Traits Inherited? In an unprepared world, genius may go unrecognized. • Gregor Mendel presented his theories of inheritance in 1865. • His experiments made little impact on science during his lifetime. • It was not until 1900 that three biologists— Carl Correns, Hugo de Vries, and Erich Tschermak—rediscovered Mendel’s work and acknowledged its importance to science. Copyright © 2009 Pearson Education Inc.