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Mendel and His Peas

Mendel and His Peas. MUPGRET Workshop Feb. 7, 2004. Genetic variation. In the beginning geneticists studied differences they could see in plants. These differences are called morphological differences.

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Mendel and His Peas

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  1. Mendel and His Peas MUPGRET Workshop Feb. 7, 2004

  2. Genetic variation • In the beginning geneticists studied differences they could see in plants. • These differences are called morphological differences. • Individual variants are referred to as phenotypes, ex. tall vs. short plants or red vs. white flowers.

  3. Trait • A broad term encompassing a distribution of phenotypic variation. • Example: • Trait: Disease resistance • Phenotype: resistant vs. susceptible • Morphological differences associated with the trait might include fungal infection, fungal growth, sporulation, etc.

  4. Mendel • Monk at the St. Thomas monastery in the Czech Republic. • Performed several experiments between 1856 and 1863 that were the basis for what we know about heredity today. • Used garden peas for his research. • Published his work in 1866.

  5. Mendel • Results are remarkably accurate and some have said they were too good to be unbiased. • His papers were largely ignored for more than 30 years until other researchers appreciated its significance.

  6. Garden Pea • Pisum sativum • Diploid • Differed in seed shape, seed color, flower color, pod shape, plant height, etc. • Each phenotype Mendel studied was controlled by a single gene.

  7. Terms • Wild-type is the phenotype that would normally be expected. • Mutant is the phenotype that deviates from the norm, is unexpected but heritable. • Notice that this definition does not imply that all mutants are bad in fact many beneficial mutations have been selected by plant breeders.

  8. Advantages of plants • Can make controlled hybrids. • Less costly and time consuming to maintain than animals. • Can store their seed for long periods of time. • One plant can produce tens to hundreds of progeny.

  9. Advantages of plants • Can make inbreds in many plant species without severe effects that are typically seen in animals. • Generation time is often much less than for animals. • Fast plants (Brassica sp.) • Arabidopsis

  10. Principle of Segregation X Parental Lines Round Wrinkled All round F1 progeny Self-pollinate 3 Round : 1 Wrinkled Round 5474 Wrinkled 1850

  11. Mendel’s Results

  12. Important Observations • F1 progeny are heterozygous but express only one phenotype, the dominant one. • In the F2 generation plants with both phenotypes are observedsome plants have recovered the recessive phenotype. • In the F2 generation there are approximately three times as many of one phenotype as the other.

  13. 3 : 1 Ratio • The 3 : 1 ratio is the key to interpreting Mendel’s data and the foundation for the the principle of segregation.

  14. The Principle of Segregation • Genes come in pairs and each cell has two copies. • Each pair of genes can be identical (homozygous) or different (heterozygous). • Each reproductive cell (gamete) contains only one copy of the gene.

  15. Principle of Segregation • Either copy of the gene is equally likely to be included in a gamete. • One male and one female gamete combine to generate a new individual with two copies of the gene.

  16. Allele • One of two to many alternative forms of the same gene (eg., round allele vs. wrinkled allele). • Alleles have different DNA sequences that cause the different appearances we see.

  17. Mendel’s Principle of Segregation • In the formation of gametes, the paired hereditary determinants separate (segregate) in such a way that each gamete is equally likely to contain either member of the pair.

  18. Principle of Segregation X Parental Lines Round (WW) Wrinkled (ww) All round F1 progeny (Ww) Self-pollinate 3 Round : 1 Wrinkled Round (WW + Ww) 5474 Wrinkled (ww) 1850

  19. Punnett Square Male Female ¼ AA :½ Aa : ¼ aa

  20. Round vs. wrinkled • The SBEI causes the round vs. wrinkled phenotype. • SBEI = starch-branching enzyme • Wrinkled peas result from absence of the branched form of starch called amylopectin. • When dried round peas shrink uniformly and wrinkled do not.

  21. Round vs. wrinkled • The non-mutant or wild-type round allele is designated W. • The mutant, wrinkled allele is designated w. • Seeds that are Ww have half the SBEI of wild-type WW seeds but this is enough to make the seeds shrink uniformly. • W is dominant over w.

  22. Round vs. wrinkled • An extra DNA sequence is present in the wrinkled allele that produces a non-functional SBEI and blocks the starch synthesis pathway at this step resulting in a lack of amylopectin.

  23. A Molecular View Parents F1 F2 Progeny WW ww Ww ¼WW ¼Ww ¼wW ¼ww 1: 2 : 1 Genotype = 3: 1 Phenotype

  24. Chi-Squared Analysis • Tests if your observations are statistically different from your expectation. • For example does the Mendel data fit the 3:1 hypothesis? • Chi-squared = [(observed-expected)2/expected2]

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