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Human body cells have 46 chromosomes

Sexual Reproduction and Genetics. Chapter 10. 10.1 Meiosis. Chromosomes and Chromosome Number. Human body cells have 46 chromosomes. Each parent contributes 23 chromosomes. Homologous chromosomes — one of two paired chromosomes, one from each parent. Sexual Reproduction and Genetics.

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Human body cells have 46 chromosomes

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  1. Sexual Reproduction and Genetics Chapter 10 10.1 Meiosis Chromosomes and Chromosome Number • Human body cells have 46 chromosomes • Each parent contributes 23 chromosomes • Homologous chromosomes—one of two paired chromosomes, one from each parent

  2. Sexual Reproduction and Genetics Chapter 10 10.1 Meiosis Homologous chromosomes • Same length • Same centromere position • Carry genes that control the same inherited traits

  3. Sexual Reproduction and Genetics Chapter 10 10.1 Meiosis Haploid and Diploid Cells • An organism produces gametes to maintain the same number of chromosomes from generation to generation. • Human gametes contain 23 chromosomes. • A cell with n chromosomes is called a haploid cell. • A cell that contains 2n chromosomes is called a diploid cell.

  4. Sexual Reproduction and Genetics • When gametes combine in fertilization, the number of chromosomes is restored. Chapter 10 10.1 Meiosis Meiosis I • The sexual life cycle in animals involves meiosis. • Meiosis produces gametes.

  5. Sexual Reproduction and Genetics Chapter 10 10.1 Meiosis Stages ofMeiosisI • Reduces the chromosome number by half through the separation of homologous chromosomes • Involves two consecutive cell divisions called meiosis I and meiosis II

  6. Sexual Reproduction and Genetics Chapter 10 10.1 Meiosis Meiosis I • Interphase • Chromosomes replicate. • Chromatin condenses. Interphase

  7. Sexual Reproduction and Genetics Chapter 10 10.1 Meiosis Meiosis I • Prophase I • Pairing of homologous chromosomes occurs. • Each chromosome consists of two chromatids. Prophase I • The nuclear envelope breaks down. • Spindles form.

  8. Sexual Reproduction and Genetics Chapter 10 10.1 Meiosis Meiosis I • Prophase I • Crossing over produces exchange of genetic information. • Crossing over—chromosomal segments are exchanged between a pair of homologous chromosomes.

  9. Sexual Reproduction and Genetics Chapter 10 10.1 Meiosis Meiosis I • Metaphase I • Chromosome centromeres attach to spindle fibers. Metaphase I • Homologous chromosomes line up at the equator.

  10. Sexual Reproduction and Genetics • Homologous chromosomes separate and move to opposite poles of the cell. Chapter 10 10.1 Meiosis Meiosis I • Anaphase I Anaphase I

  11. Sexual Reproduction and Genetics Chapter 10 10.1 Meiosis Meiosis I • Telophase I • The spindles break down. Telophase I • Chromosomes uncoil and form two nuclei. • The cell divides.

  12. Sexual Reproduction and Genetics • A second set of phases begins as the spindle apparatus forms and the chromosomes condense. Chapter 10 10.1 Meiosis Meiosis II • Prophase II Prophase II

  13. Sexual Reproduction and Genetics • A haploid number of chromosomes line up at the equator. Chapter 10 10.1 Meiosis Meiosis II • Metaphase II Metaphase II

  14. Sexual Reproduction and Genetics • The sister chromatids are pulled apart at the centromere by spindle fibers and move toward the opposite poles of the cell. Chapter 10 10.1 Meiosis Meiosis II • Anaphase II Anaphase II

  15. Sexual Reproduction and Genetics • The chromosomes reach the poles, and the nuclear membrane and nuclei reform. Chapter 10 10.1 Meiosis Meiosis II • Telophase II Telophase II

  16. Sexual Reproduction and Genetics Chapter 10 10.1 Meiosis Meiosis II • Cytokinesis results in four haploid cells, each with n number of chromosomes. Cytokinesis

  17. Sexual Reproduction and Genetics Chapter 10 10.1 Meiosis The Importance of Meiosis • Meiosis consists of two sets of divisions • Produces four haploid daughter cells that are not identical • Results in genetic variation

  18. Sexual Reproduction and Genetics Chapter 10 10.1 Meiosis Meiosis Provides Variation • Depending on how the chromosomes line up at the equator, four gametes with four different combinations of chromosomes can result. • Genetic variation also is produced during crossing over and during fertilization, when gametes randomly combine.

  19. Sexual Reproduction and Genetics Chapter 10 10.1 Meiosis Sexual Reproduction v. Asexual Reproduction • Asexual reproduction • The organism inherits all of its chromosomes from a single parent. • The new individual is genetically identical to its parent. • Sexual reproduction • Beneficial genes multiply faster over time.

  20. A B C D Sexual Reproduction and Genetics Chapter 10 CDQ 1 Chapter Diagnostic Questions Which symbol is used to represent the number of chromosomes in a gamete? # x r n

  21. A B C D Sexual Reproduction and Genetics Chapter 10 FQ 3 10.1 Formative Questions How does the number of chromosomes in gametes compare with the number of chromosomes in body cells? Gametes have 1/4 the number of chromosomes. Gametes have 1/2 the number of chromosomes. Gametes have the same number of chromosomes. Gametes have twice as many chromosomes.

  22. A B C D Sexual Reproduction and Genetics Chapter 10 FQ 4 10.1 Formative Questions What type of organisms only reproduce asexually? bacteria protists plants simple animals

  23. A B Sexual Reproduction and Genetics Chapter 10 FQ 9 10.3 Formative Questions Two genes on the same chromosome may become separated during meiosis. true false

  24. A B C D Sexual Reproduction and Genetics Chapter 10 CAQ 1 Chapter Assessment Questions How many chromosomes would a cell have during metaphase I of meiosis if it has 12 chromosomes during interphase? 6 12 24 36

  25. A B C D Sexual Reproduction and Genetics Chapter 10 CAQ 2 Chapter Assessment Questions Which stage of meiosis is illustrated? prophase I interphase anaphase I anaphase II

  26. A B C D Sexual Reproduction and Genetics Chapter 10 CAQ 3 Chapter Assessment Questions What is the next step for the chromosomes illustrated? Chromosomes replicate. Chromosomes move to opposite poles. Chromosomes uncoil and form two nuclei. Chromosomes line up at the equator.

  27. A B C D Sexual Reproduction and Genetics Chapter 10 STP 1 Standardized Test Practice What is this process called? fertilization gamete formation inheritance reproduction

  28. A B C D Sexual Reproduction and Genetics Chapter 10 STP 2 Standardized Test Practice Before meiosis I, the sister chromatids of this chromosome were identical. What process caused a change in a section of one chromatid? DNA replication crossing over synapsis telophase

  29. A B C D Sexual Reproduction and Genetics Chapter 10 STP 3 Standardized Test Practice At what stage is the chromosome number reduced from 2n to n? prophase I metaphase I anaphase I meiosis II

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