1. Fig. 8-00

2. Fig. 8-00a

3. Fig. 8-00b

4. Fig. 8-1a Cell Replacement Growth via Cell Division FUNCTIONS OF CELL DIVISION Human kidney cell Early human embryo LM Colorized TEM

5. Fig. 8-1aa Cell Replacement Colorized TEM

6. Fig. 8-1ab Growth via Cell Division LM

7. Fig. 8-1b Asexual Reproduction FUNCTIONS OF CELL DIVISION Sea stars LM Amoeba African Violet

8. Fig. 8-1ba LM Asexual Reproduction

9. Fig. 8-1bb Asexual Reproduction

10. Fig. 8-1bc Asexual Reproduction

11. Fig. 8-2 Number of chromosomes in body cells Indian muntjac deer Species Opossum Koala Human Mouse Giraffe Buffalo Dog Red viscacha rat Duck-billed platypus 102 78 60 54 46 40 30 22 16 6

12. Fig. 8-3 Chromosomes LM

13. Fig. 8-4 Duplicated chromosomes (sister chromatids) TEM Tight helical fiber Looped domains TEM Centromere Nucleosome “Beads on a string” Histones DNA double helix

14. Fig. 8-4a TEM Nucleosome “Beads on a string” Histones DNA double helix

15. Fig. 8-4b Duplicated chromosomes (sister chromatids) TEM Tight helical fiber Looped domains Centromere

16. Fig. 8-5 Chromosome duplication Sister chromatids Chromosome distribution to daughter cells

17. Fig. 8-6 Cytokinesis (division of cytoplasm) Mitosis (division of nucleus) Mitotic (M) phase: cell division (10% of time) Interphase: metabolism and growth (90% of time) S phase (DNA synthesis; chromosome duplication) G1G1 G2G2

18. Fig. 8-7a Nuclear envelope LM Plasma membrane Chromosome, consisting of two sister chromatids Spindle microtubules Fragments of nuclear envelope Centrosome Centromere Early mitotic spindle Centrosomes (with centriole pairs) Chromatin PROPHASEINTERPHASE

19. Fig. 8-7aa Nuclear envelope Plasma membrane Chromosome, consisting of two sister chromatids Spindle microtubules Fragments of nuclear envelope Centrosome Centromere Early mitotic spindle Centrosomes (with centriole pairs) Chromatin PROPHASE INTERPHASE

20. Fig. 8-7ab INTERPHASE LM

21. Fig. 8-7ac LM PROPHASE

22. Fig. 8-7ad LM PROPHASE

23. Fig. 8-7b ANAPHASE METAPHASE TELOPHASE AND CYTOKINESIS Spindle Daughter chromosomes Cleavage furrow Nuclear envelope forming

24. Fig. 8-7ba ANAPHASE METAPHASE TELOPHASE AND CYTOKINESIS Spindle Daughter chromosomes Cleavage furrow Nuclear envelope forming

25. Fig. 8-7bb METAPHASE

26. Fig. 8-7bc ANAPHASE

27. Fig. 8-7bd TELOPHASE AND CYTOKINESIS

28. Fig. 8-8a Cleavage furrow SEM Cleavage furrow Contracting ring of microfilaments Daughter cells

29. Fig. 8-8aa Cleavage furrow SEM

30. Fig. 8-8ab Cleavage furrow Contracting ring of microfilaments Daughter cells

31. Fig. 8-8b Daughter cells New cell wall Vesicles containing cell wall material Cell plate Cell wall Wall of parent cell Cell plate forming Daughter nucleus LM

32. Fig. 8-8ba Wall of parent cell Cell plate forming Daughter nucleus LM

33. Fig. 8-8bb Daughter cells New cell wall Vesicles containing cell wall material Cell plate Cell wall

34. Fig. 8-9 A tumor grows from a single cancer cell. Cancer cells invade neighboring tissue. Metastasis: Cancer cells spread through lymph and blood vessels to other parts of the body. Glandular tissue Blood vessel Tumor Lymph vessels

35. Fig. 8-10

36. Fig. 8-11 Pair of homologous chromosomes LM One duplicated chromosome Centromere Sister chromatids

37. Fig. 8-11a LM

38. Fig. 8-12 Multicellular diploid adults (2n  46) MEIOSIS FERTILIZATION MITOSIS 2n2n and development Key Sperm cell n n Diploid zygote (2n  46) Diploid (2n) Haploid (n) Egg cell Haploid gametes (n  23)

39. Fig. 8-13-1 INTERPHASE BEFORE MEIOSIS Sister chromatids Duplicated pair of homologous chromosomes Chromosomes duplicate. Pair of homologous chromosomes in diploid parent cell

40. Fig. 8-13-2 MEIOSIS I Homologous chromosomes separate. INTERPHASE BEFORE MEIOSIS Sister chromatids Duplicated pair of homologous chromosomes Chromosomes duplicate. Pair of homologous chromosomes in diploid parent cell

41. Fig. 8-13-3 MEIOSIS I Sister chromatids separate. MEIOSIS II Homologous chromosomes separate. INTERPHASE BEFORE MEIOSIS Sister chromatids Duplicated pair of homologous chromosomes Chromosomes duplicate. Pair of homologous chromosomes in diploid parent cell

42. Fig. 8-14a MEIOSIS I: HOMOLOGOUS CHROMOSOMES SEPARATE Sister chromatids remain attached Pair of homologous chromosomes INTERPHASE Sister chromatids Homologous chromosomes pair up and exchange segments. Chromosomes duplicate. Pairs of homologous chromosomes line up. Pairs of homologous chromosomes split up. Nuclear envelope Chromatin Centromere Microtubules attached to chromosome Sites of crossing over Spindle Centrosomes (with centriole pairs) PROPHASE IMETAPHASE I ANAPHASE I

43. Fig. 8-14aa INTERPHASE Nuclear envelope Chromatin Centrosomes (with centriole pairs)

44. Fig. 8-14ab TELOPHASE I AND CYTOKINESIS Sister chromatids remain attached Pair of homologous chromosomes Sister chromatids Centromere Microtubules attached to chromosome Sites of crossing over Spindle PROPHASE IMETAPHASE I ANAPHASE I Cleavage furrow

45. Fig. 8-14ac Pair of homologous chromosomes Sister chromatids Centromere Microtubules attached to chromosome Sites of crossing over Spindle PROPHASE I METAPHASE I

46. Fig. 8-14ad TELOPHASE I AND CYTOKINESIS Sister chromatids remain attached ANAPHASE I Cleavage furrow

47. Fig. 8-14b TELOPHASE II AND CYTOKINESIS Sister chromatids separate ANAPHASE II Cleavage furrow TELOPHASE I AND CYTOKINESIS Two haploid cells form; chromosomes are still doubled. MEIOSIS II: SISTER CHROMATIDS SEPARATE PROPHASE IIMETAPHASE II During another round of cell division, the sister chromatids finally separate; four haploid daughter cells result, containing single chromosomes. Haploid daughter cells forming

48. Fig. 8-14ba TELOPHASE II AND CYTOKINESIS Sister chromatids separate ANAPHASE II PROPHASE II METAPHASE II Haploid daughter cells forming

49. Fig. 8-14bb PROPHASE II METAPHASE II

50. Fig. 8-14bc LM

51. Fig. 8-14bd TELOPHASE II AND CYTOKINESIS Sister chromatids separate ANAPHASE II Haploid daughter cells forming

52. Fig. 8-15 Duplicated chromosome (two sister chromatids) MITOSIS Prophase Chromosome duplication Chromosomes align at the middle of the cell. Metaphase Sister chromatids separate during anaphase. Anaphase Telophase Daughter cells of mitosis 2n2n 2n2n Prophase I Metaphase I Anaphase I Telophase I MEIOSIS Chromosome duplication Homologous chromosomes come together in pairs. MEIOSIS I Site of crossing over between homologous (nonsister) chromatids Homologous pairs align at the middle of the cell. Chromosome with two sister chromatids Homologous chromosomes separate during anaphase I; sister chromatids remain together. Daughter cells of meiosis I Sister chromatids separate during anaphase II. Haploid n  2 MEIOSIS II Parent cell (before chromosome duplication) 2n  4 Daughter cells of meiosis II n n n n

53. Fig. 8-15a Duplicated chromosome (two sister chromatids) MITOSIS Prophase Chromosome duplication Chromosomes align at the middle of the cell. Metaphase Prophase I Metaphase I MEIOSIS Chromosome duplication Homologous chromosomes come together in pairs. MEIOSIS I Site of crossing over between homologous (nonsister) chromatids Homologous pairs align at the middle of the cell. Parent cell (before chromosome duplication) 2n  4

54. Fig. 8-15b Sister chromatids separate during anaphase. Anaphase Telophase Daughter cells of mitosis 2n2n 2n2n Anaphase I Telophase I Chromosome with two sister chromatids Homologous chromosomes separate during anaphase I; sister chromatids remain together. Daughter cells of meiosis I Sister chromatids separate during anaphase II. Haploid n  2 MEIOSIS II Daughter cells of meiosis II n n n n

55. Fig. 8-16-1 Metaphase of meiosis I POSSIBILITY 1 POSSIBILITY 2

56. Fig. 8-16-2 Metaphase of meiosis I Metaphase of meiosis II POSSIBILITY 1 POSSIBILITY 2

57. Fig. 8-16-3 Metaphase of meiosis I Metaphase of meiosis II Combination a POSSIBILITY 1 POSSIBILITY 2 Combination bCombination c Combination d Gametes

58. Fig. 8-17

59. Fig. 8-18-1 Prophase I of meiosis Duplicated pair of homologous chromosomes

60. Fig. 8-18-2 Homologous chromatids exchange corresponding segments. Prophase I of meiosis Duplicated pair of homologous chromosomes Chiasma, site of crossing over

61. Fig. 8-18-3 Metaphase I Homologous chromatids exchange corresponding segments. Sister chromatids remain joined at their centromeres. Prophase I of meiosis Duplicated pair of homologous chromosomes Chiasma, site of crossing over Spindle microtubule

62. Fig. 8-18-4 Metaphase I Metaphase II Homologous chromatids exchange corresponding segments. Sister chromatids remain joined at their centromeres. Prophase I of meiosis Duplicated pair of homologous chromosomes Chiasma, site of crossing over Spindle microtubule

63. Fig. 8-18-5 Metaphase I Metaphase II Recombinant chromosomes Gametes Recombinant chromosomes combine genetic information from different parents. Homologous chromatids exchange corresponding segments. Sister chromatids remain joined at their centromeres. Prophase I of meiosis Duplicated pair of homologous chromosomes Chiasma, site of crossing over Spindle microtubule

64. Fig. 8-19 LM

65. Fig. 8-20-1 Meiosis I Nondisjunction: Pair of homologous chromosomes fails to separate. NONDISJUNCTION IN MEIOSIS I NONDISJUNCTION IN MEIOSIS II

66. Fig. 8-20-2 Meiosis I Nondisjunction: Pair of homologous chromosomes fails to separate. NONDISJUNCTION IN MEIOSIS I Meiosis II Nondisjunction: Pair of sister chromatids fails to separate. NONDISJUNCTION IN MEIOSIS II

67. Fig. 8-20-3 Meiosis I Abnormal gametes Gametes Nondisjunction: Pair of homologous chromosomes fails to separate. NONDISJUNCTION IN MEIOSIS I Number of chromosomes Meiosis II Nondisjunction: Pair of sister chromatids fails to separate. Abnormal gametes Normal gametes n n n  1 n – 1 n  1 NONDISJUNCTION IN MEIOSIS II n – 1

68. Fig. 8-21 Abnormal egg cell with extra chromosome Normal sperm cell n  1 n (normal) Abnormal zygote with extra chromosome 2n  1

69. Fig. 8-22 Chromosome 21 LM

70. Fig. 8-22a Chromosome 21

71. Fig. 8-22b

72. Fig. 8-23 Age of mother 25 35 45 20 30 40 50 10 0 20 30 40 50 60 70 80 90 Infants with Down syndrome (per 1,000 births)

73. Fig. 8-24

74. Fig. 8-T01

75. Fig. 8-UN01 Duplication of all chromosomes Genetically identical daughter cells Distribution via mitosis

76. Fig. 8-UN02 Duplicated chromosome Chromosome (one long piece of DNA) Centromere Sister chromatids

77. Fig. 8-UN03 Interphase Cell growth and chromosome duplication G2G2 Mitotic (M) phase S phase DNA synthesis; chromosome duplication G1G1 Genetically identical “daughter” cells Cytokinesis (division of cytoplasm) Mitosis (division of nucleus)

78. Fig. 8-UN04 MITOSIS Male and female diploid adults (2n  46) MEIOSIS Sperm cell Human Life Cycle Key Haploid (n) Diploid (2n) Haploid gametes (n  23) Egg cell Diploid zygote (2n  46) and development FERTILIZATION 2n2n n n

79. Fig. 8-UN05 Daughter cells Parent cell (2n) MITOSIS Chromosome duplication 2n2n2n2n MEIOSIS MEIOSIS I Parent cell (2n) Chromosome duplication Daughter cells n MEIOSIS II Pairing of homologous chromosome Crossing over n nn

80. Fig. 8-UN06 (a) LM (b) (c) (d)