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Genetics Basics (10.2). State Standard. 2C. Using Mendel’s laws, explain the role of meiosis in reproductive variability. Sexual Reproduction and Genetics. Chapter 10. 10.2 Mendelian Genetics. How Genetics Began.

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State Standard

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  1. Genetics Basics (10.2) State Standard 2C. Using Mendel’s laws, explain the role of meiosis in reproductive variability.

  2. Sexual Reproduction and Genetics Chapter 10 10.2 Mendelian Genetics How Genetics Began • The passing of traits to the next generation is called inheritance, or heredity. • Mendel performed cross-pollination in pea plants which are truebreedingand easy to grow/observe • Mendel followed various traits in the pea plants he bred.

  3. Sexual Reproduction and Genetics Chapter 10 10.2 Mendelian Genetics • The parent generation is also known as the P generation.

  4. Sexual Reproduction and Genetics Chapter 10 10.2 Mendelian Genetics • The offspring of this P cross are called the first filial (F1) generation. • The second filial (F2) generation is the offspring from the F1 cross.

  5. Sexual Reproduction and Genetics Chapter 10 10.2 Mendelian Genetics • Mendel studied seven different traits. • Seed or pea color • Flower color • Seed pod color • Seed shape or texture • Seed pod shape • Stem length • Flower position

  6. Sexual Reproduction and Genetics Chapter 10 10.2 Mendelian Genetics Genes in Pairs • Allele • An alternative form of a single gene passed from generation to generation • Dominant - easily covers recessive alleles • Recessive - easily masked by dominant alleles

  7. Sexual Reproduction and Genetics Chapter 10 10.2 Mendelian Genetics Dominance • Dominance – represented by a capital letter • Recessive – represented by a lower case letter • An organism with two of the same alleles for a particular trait is homozygous. • An organism with two different alleles for a particular trait is heterozygous.

  8. Sexual Reproduction and Genetics Chapter 10 10.2 Mendelian Genetics Genotype and Phenotype • An organism’s allele pairs are called its genotype. • The observable characteristic or outward expression of an allele pair is called the phenotype. • An organism may have the same phenotype but either be homozygous or heterozygous.

  9. Sexual Reproduction and Genetics Chapter 10 10.2 Mendelian Genetics Mendel’sLaw of Segregation • Two alleles for each trait separate during meiosis. • During fertilization, two alleles for that trait unite. • Heterozygous organisms are called hybrids.

  10. Sexual Reproduction and Genetics Chapter 10 10.2 Mendelian Genetics MonohybridCross • A cross that involves hybrids for a single trait is called a monohybrid cross.

  11. Sexual Reproduction and Genetics Chapter 10 10.2 Mendelian Genetics Dihybrid Cross • The simultaneous inheritance of two or more traits in the same plant is a dihybrid cross. • Dihybrids are heterozygous for both traits.

  12. Sexual Reproduction and Genetics Chapter 10 10.2 Mendelian Genetics Law of Independent Assortment • Random distribution of alleles occurs during gamete formation • Genes on separate chromosomes sort independently during meiosis. • Each allele combination is equally likely to occur.

  13. Sexual Reproduction and Genetics Chapter 10 10.2 Mendelian Genetics Punnett Squares • Predict the possible offspring of a cross between two known genotypes Punnett Squares

  14. Sexual Reproduction and Genetics Chapter 10 10.2 Mendelian Genetics Punnett Square—Dihybrid Cross • Four types of alleles from the male gametes and four types of alleles from the female gametes can be produced. • The resulting phenotypic ratio is 9:3:3:1.

  15. Sexual Reproduction and Genetics Chapter 10 Genetic Recombination • The new combination of genes produced by crossing over and independent assortment • Combinations of genes due to independent assortment can be calculated using the formula 2n, where n is the number of chromosome pairs.

  16. In humans, detached earlobes are dominant over attached earlobes. Make a letter key for this trait (including what each letter stands for). Create a Punnett Square to show a cross between a person who is hybrid & a person who has attached earlobes. Show the percentages of each possible genotype Show the percentages of each possible phenotype

  17. Sexual Reproduction and Genetics Chapter 10 Chapter Diagnostic Questions Name the person known as the father of genetics. Felix Mendelssohn Gregor Mendel Dr. Reginald Punnett Albert Einstein

  18. Sexual Reproduction and Genetics Chapter 10 Chapter Diagnostic Questions Which term refers to the outward expression of an allele pair? gamete hybrid phenotype genotype

  19. Sexual Reproduction and Genetics Chapter 10 10.2 Formative Questions What is the name for different forms of a single gene that are passed from generation to generation? alleles genotypes phenotypes traits

  20. Sexual Reproduction and Genetics Chapter 10 10.2 Formative Questions Which pair of alleles is heterozygous? RR Rr rr yR

  21. Sexual Reproduction and Genetics Chapter 10 10.2 Formative Questions In rabbits, gray fur (G) is dominant to black fur (g). If a heterozygous male is crossed with a heterozygous female, what is the phenotypic ratio of the possible offspring? 1:1 1:2:1 2:1 3:1

  22. Sexual Reproduction and Genetics Chapter 10 10.3 Formative Questions Which explains how the shuffling of genes during meiosis results in billions of possible combinations? crossing over gene linkage genetic recombination independent segregation

  23. Sexual Reproduction and Genetics Chapter 10 10.3 Formative Questions True or False Two genes on the same chromosome may become separated during meiosis.

  24. Sexual Reproduction and Genetics Chapter 10 Standardized Test Practice For human eye color, brown is dominant and blue is recessive. If a husband is heterozygous and his wife has blue eyes, what is the probability that their child will have blue eyes? 0 1/4 1/2 1

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