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What is Genetics? Genetics is the scientific study of heredity.

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Presentation on theme: "What is Genetics? Genetics is the scientific study of heredity."— Presentation transcript:

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2 What is Genetics? Genetics is the scientific study of heredity

3 What is a Trait? A trait is a specific characteristic that varies from one individual to another. Examples: Brown hair, blue eyes, tall, curly

4 What is an Allele? Alleles are the different possibilities for a given trait. Every trait has at least two alleles (one from the mother and one from the father) Example: Eye color – Brown, blue, green, hazel Examples of Alleles: A = Brown Eyes a = Blue Eyes B = Green Eyes b = Hazel Eyes

5 What are Genes? Genes are the sequence of DNA that codes for a protein and thus determines a trait.

6 Gregor Mendel Father of Genetics 1 st important studies of heredity Identified specific traits in the garden pea and studied them from one generation to another

7 Mendel’s Conclusions 1. Law of Segregation – Two alleles for each trait separate when gametes form; Parents pass only one allele for each trait to each offspring 2. Law of Independent Assortment – Genes for different traits are inherited independently of each other

8 Dominant vs. Recessive Dominant - Masks the other trait; the trait that shows if present Represented by a capital letter Recessive – An organism with a recessive allele for a particular trait will only exhibit that trait when the dominant allele is not present; Will only show if both alleles are present Represented by a lower case letter R r

9 Dominant & Recessive Practice TT - Represent offspring with straight hair Tt - Represent offspring with straight hair tt - Represents offspring with curly hair T – straight hair t - curly hair

10 Genotype vs. Phenotype Genotype – The genetic makeup of an organism; The gene (or allele) combination an organism has. Example: Tt, ss, GG, Ww Phenotype – The physical characteristics of an organism; The way an organism looks Example: Curly hair, straight hair, blue eyes, tall, green

11 Homozygous vs. Heterozygous Homozygous – Term used to refer to an organism that has two identical alleles for a particular trait (TT or tt) Heterozygous - Term used to refer to an organism that has two different alleles for the same trait (Tt) RR Rr rr

12 Punnett Squares Punnett Square – Diagram showing the gene combinations that might result from a genetic cross Used to calculate the probability of inheriting a particular trait Probability – The chance that a given event will occur

13 Punnett Square Parent Offspring

14 How to Complete a Punnett Square

15 Y-Yellow y-white Genotype: 1:2:1 (YY:Yy:yy) Phenotype: 3 Yellow 1 White

16 You Try It Now! Give the genotype and phenotype for the following cross: TT x tt (T = Tall and t = Short)

17 TT x tt Step One: Set Up Punnett Square (put one parent on the top and the other along the side) T T t t

18 TT x tt Step Two: Complete the Punnett Square T T t t Tt

19 TT x tt Step Three: Write the genotype and phenotype T T t t Tt Genotype: 4 - Tt Phenotype: 100% Tall Remember: Each box is 25%

20 You Try It Now! Give the genotype and phenotype for the following cross: Tt x tt

21 Tt x tt Step One: Set Up Punnett Square (put one parent on the top and the other along the side) T t t t

22 Tt x tt Step Two: Complete the Punnett Square T t t t Tttt Tttt

23 Tt x tt Step Two: Complete the Punnett Square T t t t Tttt Tttt Genotype: Tt - 2 (50%) tt - 2 (50%) Phenotype: 50% Tall 50% Short Remember: Each box is 25%

24 Some Terminology P 1 – Original parents F 1 – First generation F 2 – Second generation P 1 X P 1 = F 1 F 1 X F 1 = F 2

25 Incomplete Dominance Incomplete Dominance - Situation in which one allele is not completely dominant over another. Example – Red and white flowers are crossed and pink flowers are produced.

26 Codominance Codominance - Situation in which both alleles of a gene contribute to the phenotype of the organism. Example – A solid white cow is crossed with a solid brown cow and the resulting offspring are spotted brown and white (called roan). +

27 Multiple Alleles Multiple Alleles- Three or more alleles of the same gene. Even though three or more alleles exist for a particular trait, an individual can only have two alleles - one from the mother and one from the father.

28 Examples of Multiple Alleles 1. Coat color in rabbits is determined by a single gene that has at least four different alleles. Different combinations of alleles result in the four colors you see here.

29 Examples of Multiple Alleles 2. Blood Type – 3 alleles exist (I A, I B, and i), which results in four different possible blood types 3. Hair Color – Too many alleles exist to count There are over 20 different shades of hair color.

30 Multiple Alleles There Are Always Multiple Alleles! Genetic inheritance is often presented with straightforward examples involving only two alleles with clear-cut dominance. This makes inheritance patterns easy to see. But very few traits actually only have two alleles with clear-cut dominance. As we learn more about genetics, we have found that there are often hundreds of alleles for any particular gene. We probably know this already - as we look around at other people, we see infinite variation.

31 Polygenic Trait Polygenic Trait - Trait controlled by two or more genes. Polygenic traits often show a wide range of phenotypes. Example: The wide range of skin color in humans comes about partly because more than four different genes probably control this trait.

32 Sex-linked inheritance The sex chromosomes are X and Y, with most genes carried on the X chromosome. Sex-linked traits are carried on the X chromosome. Example: Hemophilia is a disease in which blood does not clot properly, only occurs in a female who has two copies of the defective gene (X h X h ). A female with only one copy of the defective gene (X H X h ) will not have hemophilia but is a carrier and can pass the defective gene to offspring. Hemophilia occurs in males who inherit only one copy of the defective gene (X h Y). For this reason, sex-linked genetic defects appear much more frequently in males.

33 A pedigree is a chart for tracing genes in a family. Phenotypes are used to infer genotypes on a pedigree. Autosomal genes show different patterns on a pedigree than sex-linked genes.

34 Keys to a pedigree Usually only shows PHENOTYPE Squares =MALE Circle = FEMALE Darken = AFFECTED Line between male and female = MARRIAGE Line drawn down from the marriage = OFFSPRING Half colored/darkened = HYBRID OR CARRIER Goal = FIGURE OUT GENOTYPE


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