CHROMOSOMES

2. CHROMOSOMES •DNA (deoxyribonucleic acid) is a long, thin molecule that directs cellular functions and heredity. •DNA contains information that is encoded in segments called genes. •A single molecule of DNA contains thousands of genes.

3. Chromosome Structure •A chromosome forms when a single DNA molecule, and its associated proteins (histones), coil tightly prior to cell division. •DNA only coils in the form of chromosomes when the cell is preparing for cell division

4. By the time chromosomes coil and become visible, the DNA has been copied, and each chromosome consists of two copies ensuring that each new cell will have the same genetic information. •The identical strands of DNA are each called chromatids and are held together by a centromere.

5. •Body cells (somatic cells) contain two copies of each chromosome, referred to as homologous chromosomes. •Homologous chromosomes are similar in size, shape and have the same type of genetic information (code for the same characteristics). •One homologue originates from the female parent and the other from the male parent.

6. •Human cells have 23 different PAIRS of homologous chromosomes. –1 pair is the sex chromosomes(determine sex and related characteristics) •In humans and many other species, females are designated XX and males XY. are designated –22 pairs are autosomes (determine other traits)

7. •The number of chromosomes in cells is constant within a species. •Diploid cells (2n)contain two homologues of each chromosome. –Somatic cells •Haploid cells (n)contain one homologue of each chromosome. –Sex cells –gametes(egg and sperm) •For humans 2n = 46. (∴n = ?) For fruit flies 2n = 8. (n = 4)

8. The haploidg ametes are fused in fertilization which restores the diploid number in the zygote(the fertilized egg).

9. A karyotype is a pictoral spread of an individual’s chromosomes. •It can be used to detect some genetic abnormalities (Down’s Syndrome)

10. MEIOSIS •Meiosis is a form of cell division that halves the number of chromosomes in cells. •Meiosis takes place in order to make gametes •Four haploid gametes are produced from one diploid cell. •Meiosis consists of two successive nuclear divisions.

11. Interphase • Replication of DNA must occur before cell division

12. Prophase I • Chromosomes condense • Nuclear membrane disappears • Spindle fibers begin to form • Homologous chromosomes pair

13. Prophase I cont. • Homologous chromosomes pair to form a tetrad • Crossing over results in genetic variation

14. CROSSING OVER •Crossing over(exchange of genetic material between homologues) occurs during Prophase I. It produces genetic recombination.

15. Metaphase I • Homologous chromosomes line up along the equator of the cell

16. Anaphase I • Homologous chromosomes separate move to opposite poles

17. Telophase I • Two cells are formed • Each has ½ the genetic information of the parent cell

18. Overview of Meiosis I

19. Prophase II • Condensed chromosomes attach to spindle fibers • Nuclear membrane disappears

20. Metaphase II • Chromosomes line up along equator of cell

21. Anaphase II • Sister chromatids are pulled apart

22. Telophase II • Each cell forms 2 new (1n) cells

23. Meiosis II • Meiosis II is much like mitosis with chromatids separating • End result of meiosis is 4cells with half the geneticmaterial as the parent cell

24. Overview of Meiosis II

27. Comparing Meiosis & Mitosis Meiosis •Homologous chromosomes pair, forming homologues until anaphase I •Daughter cells haploid Daughter cells have new assortment of parental chromosomes •Chromatids not identical; crossing over Mitosis •Homologous chromosomes independent •Identical daughter cells

29. Formation of Gametes In animals, meiosis produces haploid reproductive cells called gametes Only occurs within their reproductive organs In humans, meiosis occurs in the testes and in the ovaries Testes – production of male gametes known as sperm cells. Diploid reproductive cell divides meiotically to form four haploid cells called spermatids. Production of sperm cells is called spermatogenesis This process produces 4 viable sperm cells

30. Meiosis – mouse testes Parent cell 1st division 2nd division 4 gametes http://www.djusd.k12.ca.us/davishigh/amoriarty/Meiosis.htm

31. Formation of Gametes Ovaries- Oogenesis is production of mature egg cells Diploid reproductive cell divides meiotically to produce one mature egg cell During cytokinesis I and II of oogenesis, cytoplasm of the original cell is divided unequally between new cells One egg cell is produced by meiosis. Other three products of meiosis called polar bodies, degenerate (break down)

32. Mistakes in Meiosis • Mistakes in meiosis cause genetic abnormalities • One such genetic abnormality is Down syndrome or Trisonomy 21

33. Meiosis – division error Chromosome pair

34. Meiosis error - fertilization Should the gamete with the chromosome pair be fertilised then the offspring will not be ‘normal’. In humans this often occurs with the 21st pair – producing a child with Downs Syndrome

35. 21 trisomy – Downs Syndrome Can you see the extra 21st chromosome? Is this person male or female?