Download presentation
Presentation is loading. Please wait.
1
Introduction to Genetics
2
The Work of Gregor Mendel Genetics is the study of heredity. Heredity is the inheritance of traits by young from their parents. Gregor Mendel was a monk, born in 1822 He spent 14 years as a teacher & was in charge of the garden at the Monastery. Mendel observed certain traits were passed generation to generation in pea plants (Pisum sativum).
3
The Pea Plants Pea plants are normally self-pollinating. This creates clones of the parent plant. These pea plants are called true-breeding. Mendel observed seven traits and kept detailed records. A trait is specific characteristic. He would physically cross-pollinate plants to produce Hybrids. Hybrids are created by crossing parents of different traits.
4
Genes and Dominance The original set of parents is the P generation. The off-spring is the F 1 or first Filial generation. There is no blending, one trait disappeared only to return in the F 2 generation. Mendel concluded that factors (genes) are passed from parent to off-spring. Each “factor” had two different forms which we now call alleles. Some alleles are dominate & some are recessive Dominant alleles make a working protein. Recessive alleles do not make or make a nonfunctioning protein.
5
Seed Shape Flower Position Seed Coat Color Seed Color Pod Color Plant Height Pod Shape Round Wrinkled Round Yellow Green Gray White Smooth Constricted Green Yellow Axial Terminal Tall Short YellowGraySmoothGreenAxialTall The F 2 generation will show the recessive alleles are only hidden not removed.
6
Probability in Genetics Mendel kept careful records and was able to predict results of crosses using math. Probability is the likelihood that and event will occur. Probability is the number of events divided by the number of possible outcomes. Coin flip is 1 event (heads) 2 outcomes. Heads three times is ½ x ½ x ½ = 1/8
7
Punnett Squares Punnett Squares are used to predict all the possible outcomes of a cross. The alleles from one parent are placed on top and segregated. The alleles from the other parent are placed on the side. Letters are assigned to represent the trait. Capital letters are dominant Lower case are recessive.
8
Punnett Vocabulary The Phenotype of an organism is its physical appearance for a trait. (Tall) The Genotype is the alleles an organism has in its genome. (Tt) Homozygous organisms have identical alleles. (TT) or (tt) Heterozygous organisms have different alleles in a pair. (Tt)
9
Punnett Squares
10
Mendelian Genetics Independent Assortment of alleles means the segregation of one pair does not affect the segregation of other alleles. Independent Assortment is illustrated in a two factor cross. The F 1 plants were all heterozygous dominant. The F 2 plants have a 9:3:3:1 phenotypic ratio.
12
Summary of Mendel’s Principles The inheritance of characteristic is determined by individual units known as genes. Genes are passed from parents to offspring. In cases where two or more forms (alleles) of the gene for a single trait exist, some forms of the gene may be dominant and others may be recessive. In most sexually reproducing organisms, each adult has two copies of each gene- one form each parent. These genes are segregated from each other when gametes are formed. The alleles for different genes usually segregated independently of one another.
13
Other Allele Relationships Incomplete Dominance- occurs when a single dominant does not make enough protein to mask the recessive. Codominance- occurs when two alleles both make their protein. Multiple Alleles- occurs when there are more than two alleles. (Human Blood type) Polygenetic Traits- occurs when a trait has more than one location
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.