The Cellular Basis of Inheritance: Chromosome Structure and Cell Cycle

1. Chapter 9 The Cellular Basis of Inheritance

2. Reproduction • Asexual – process in which a single cell or set of cells produces offspring that inherit all their genetic material from one parent • Ex. Binary fission – bacteria • Sexual – process in which genetic material from two parents combines and produces offspring that differ genetically from either parent • Fertilization – egg fuses with sperm (zygote) • Cellular division – division of the genetic material of a cell in which two new cells are created

3. Chromosome Structure • Nucleus – control center of cell • Contains DNA • Chromatin – thin fibers of protein and DNA found in a non-dividing cell • Chromosomes – Condensed, coiled, chromatin, that forms in dividing cells • Chromatid (sister) – each half of a duplicated chromosome • Centromere – Site of attachment for chromatids

4. Chromosome Structure

5. Chromosome Numbers • Each species has a characteristic number of chromosomes • Humans – 46, 23 pairs • Fruit Flies – 8 • Chimps – 48 • Carrot - 18

6. Chromosome Numbers • Humans • Sex Chromosomes (2) Determine the sex • Male XY • Female XX • Autosomal Chromosomes (44)

7. Chromosome Numbers • Homologous Chromosomes – One of a pair of morphologically similar chromosomes (mother, father) • Carry genes for the same traits • Karyotype – a technique for examining the chromosome makeup of an individual

8. Chromosome Numbers • Diploid (2N) • Cells that contains 2 of each type of chromosome • Somatic cells – body cells • Haploid (1N) • Cells that contain only 1 set of chromosomes • Germ cells – those that give rise to gametes

9. Cell Cycle • Cell Cycle • Sequence of events from the production of a eukaryotic cell to the time the cell itself reproduces • Three Stages in the cell cycle • Interphase • Mitosis • Cytokinesis

11. Cell Cycle • Interphase • Period of cell growth and development before cell division (90% cells life) • 3 Phases of Interphase • G1 – Time of cell growth • S – Cells DNA is copied (replicated) • G2 – Cell prepares for division

12. Cell Cycle • Mitosis • Cell (nuclear) division in which the number of chromosomes is kept the same from parent cells to daughter cells • 2N parent cell creates 2 diploid daughter cells • 4 stages of Mitosis • Prophase • Metaphase • Anaphase • Telophase

13. Cell Cycle • Mitosis • Prophase • 1. Each duplicated chromosome (consisting of two sister chromatids) condenses from thread-like form to rod-like form • 2. Nuclear envelope and nucleolus disappear • 3. Centrioles form and move to opposite ends of the cell and give rise to spindle fibers • Spindle – football shaped framework of microtubules

15. Cell Cycle • Mitosis • Metaphase (midway between) • Spindle fibers (microtubules) attach to the centromeres of the chromosomes and align them in the center of the cell (spindle equator)

17. Cell Cycle • Mitosis • Anaphase • Sister chromatids of each chromosome separate and move to opposite poles • Each chromatid is now its own “daughter” chromosome

19. Cell Cycle • Mitosis • Telophase • 1. Chromosomes return to threadlike form • 2. Nuclear envelopes begin to reform and separate the 2 new sets of chromosomes • 3. Spindle fibers disassemble • 4. Nucleolus forms in each of the newly forming cells

21. Cell Cycle • Cytokinesis • Division of the cytoplasm • Splitting of a parent cell into daughter cells • Plants • Cell plate – vesicles containing cell wall building substances fuse together and separate the two new cells • Animals • Cleavage furrow – area of cell membrane that pinches inward until 2 new cells are formed

24. Mitosis Video Clip

25. Meiosis The Formation of Gametes

26. Meiosis • Meiosis • Cell (nuclear) division in which the chromosome number is cut in half • 2N cell divides to form 4 (1N) cells • Two cell divisions – 2 stages • Meiosis I • Prophase I, Metaphase I, Anaphase I, Telophase I • Meiosis II • Prophase II, Metaphase II, Anaphase II, Telophase II

27. Meiosis • Prophase I • 1. Chromosomes condense to rod-like form • 2. Nucleolus and nuclear membrane disappear • 3. Centrosomes form and move to poles, give rise to spindle fibers • 4. Homologous chromosomes pair up creating a tetrad (4 chromatids) • Crossing over – part of chromatid may break off and attach to adjacent chromatid on the homologous chromosome • Genetic recombination – regrouping of genes due to an exchange of maternal and paternal genetic material

29. Meiosis • Metaphase I • Spindle fibers attach to the centromeres, and homologous pairs line up side by side (tetrad) on the spindle equator

31. Meiosis • Anaphase I • Homologous chromosomes are separated and moved to opposite poles

33. Meiosis • Telophase I • Cytokinesis occurs and produces 2 haploid (1N) cells • Each new cell contains one chromosome from each homologous pair

35. Meiosis • Prophase II • Spindle fibers form and attach themselves to the centromeres of the chromosomes

37. Meiosis • Metaphase II • Chromosomes are moved to the equator of the cell

39. Meiosis • Anaphase II • Chromatids separate and move toward opposite poles of the cell

41. Meiosis • Telophase II • 4 daughter nuclei • Each cell has a haploid chromosome number and all are in the unduplicatedstate • Gametes (sperm, egg)

43. Meiosis Video Clips pull up video on flash drive copy & paste address: http://highered.mheducation.com/sites/0072507470/student_view0/chapter28/animation__how_meiosis_works.html