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Genetics- the study of heredity. Heredity is the passing of characteristics from parent to offspring.

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Presentation on theme: "Genetics- the study of heredity. Heredity is the passing of characteristics from parent to offspring."— Presentation transcript:

1 Genetics- the study of heredity. Heredity is the passing of characteristics from parent to offspring.

2 Gregor Mendel-Father of Genetics Gregor Mendel- 1840’-1860’s did research on heredity. An Austrian Monk who became the Father of Genetics. Used Pea plants to do test- crosses.

3 Genetic Crosses Parent generation (P1) the first two organisms that are crossed F 1 generation - offspring from first generation F2 generation-offspring from crossing the F 1 generation. Common in plants and animals

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5 Mendel’s 4 Principles 1.1. The principle of dominance states that some alleles are dominant and some are recessive. 2. The principle of probability can be used to predict offspring outcome.

6 3. The principle of independent assortment states that alleles for different genes usually separate independently of each other. 4. The principle of inheritance of biological characteristics -genes are passed from parent to offspring.

7 Dihybrid Crosses When two traits that separate independently of each other are put into a cross you get 16 Offspring.When both individuals are heterozygous you get a 9:3:3:1- phenotypic ratio. (what they look like)

8 Section 11-3 Figure 11-10 Independent Assortment in Peas Go to Section:

9 Beyond Simple Dominant and Recessive Alleles Some alleles are neither dominant or recessive, and multiple alleles or multiple genes control many traits Incomplete Dominance- The phenotype of the offspring is intermediate (blend) of the parents. Example :red flowers x white flowers make pink.

10 Example Incomplete Dominance

11 Co-Dominance Both alleles are expressed equally giving striping spots or checkered appearance. Example: some chickens have equal number of white and black feathers giving a checkered appearance. In cattle red cattle and white cattle make roan cattle (some red patches some white)

12 Multiple Alleles- In the population of organisms there are more than two alleles for certain traits. An individual can only have 2 alleles for each trait but more can exist in the population. Example: Human blood type A, AB, O, B

13 Polygenic Traits Trait produced by the interaction of several genes. This causes a wide variation in outcomes. Example: Human skin color –controlled by 4 different genes

14 Sex-Linked The trait is on the Chromosome that determines the sex of the offspring. Females=XX Males=XY Because males only receive one X from their mother if the trait is on the X it will show up even if it is recessive. Y chromosome is very small and does not carry many traits. Examples: Color-blindness, hemophilia

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