Chapter 5

1. Chapter 5 Genetics: The Continuity of Life

2. What is genetics? The study of heredity—the passing on of characteristics (in the form of genes) from parents to offspring

3. History of Genetics • Aristotle • Traits passed through the parents’ blood • “Particulate theory of reproduction” • Preformationists • Complete organism in the father’s sperm

4. History of Genetics • Gregor Mendel • Traits caused by “factors” which parents donate to their offspring • “Father of Genetics” • Watson and Crick • Described the structure of DNA

5. GenesandChromosomes

6. Gene A section of DNA that codes for a particular polypeptide chain of amino acids, thereby producing a trait

7. Characteristics of Genes • Genes are the same in type and amount in the cells of an organism. • Genes are the same in type and amount in the cells of each organism of a species.

8. Characteristics of Genes • Genes are chemicals that can function as individual units. • Genes carry information for the formation of organic chemicals (biosynthesis).

9. Characteristics of Genes • Genes are able to reproduce themselves. • Genes can be passed on to the next generation. • Genes are found in the cell’s nuclear material.

10. What is a chromosome? Genes are located on chromosomes.

11. chromosome:a strand of DNA with proteins attached histones: proteins that support and protect the DNA

12. chromatin material: a fuzzy, tangled mass of chromosomes in a non-dividing cell

13. chromatid:one half of a duplicated chromosome ready for cell division

14. centromere: the point at which two chromatids are attached

15. Chromosome Numbers • The number of chromosomes in a cell is a species characteristic.

16. It is not the number of chromosomes that determines a species, but rather the genes on the chromosomes.

17. Chromosome Numbers • Karyotype—a picture of the chromosomes in a cell

18. Chromosome NumbersChromosomes come in pairs. • There are 23 pairs of chromosomes in a human cell.

19. Chromosome NumbersChromosomes come in pairs. • Each pair is called a homologous pair of chromosomes. • Each member of a pair is called a homologue.

20. Diploid = 2n homologous pairs of chromosomes humans = 23 pairsor 2n = 46

21. Both homologues in a pair have genes for the same characteristics.

22. Haploid = n one set of chromosomes In humans, n = 23.

23. The Cell Cycle • The cell cycle has three major phases. • Interphase is the time of growth for the cell.

24. The Cell Cycle • The cell cycle has three major phases. • Mitosis is the division of the nuclear material. • It is the process whereby the copies of the genetic material are separated into two sets.

25. The Cell Cycle • The cell cycle has three major phases. • Cytokinesis is the division of the cytoplasm.

26. Interphase • Major time of growth; most time spent in this phase • Time between divisions • Transcription and replication • Divided into three stages • G1, S, G2

27. Interphase • G1 phase • Major growth spurt • Increase in size • Produce new organelles and proteins • Ends when the cell reaches maturity

28. Interphase • S phase • DNA is replicated (and the chromosomes duplicated). • The centrosome divides.

29. Interphase • G2 phase • Cell produces proteins and molecules needed for mitosis. • A cell that is ready to divide is called a mother cell.

30. interphase

31. Mitosis • Division of the nuclear material • Results in each nucleus having an identical copy of the genetic information from the mother cell

32. Mitosis • Four phases • Prophase • Metaphase • Anaphase • Telophase

33. Prophase • Chromosomes coil up, becoming short and thick. • DNA duplicates are called sister chromatids. • Sister chromatids are attached at the centromere.

34. Prophase • Nuclear membrane disintegrates. • Centrosomes migrate to opposite sides of the cell and form the mitotic spindle.

35. prophase sister chromatids

36. Metaphase • Chromosomes are positioned at the center of the cell. • Centromeres line up on the equatorial plane.

37. metaphase spindle

38. Anaphase • Sister chromatids separate, forming daughter chromosomes. • Centromeres pull the daughter chromosomes along the spindle fiberstoward opposite poles of the cell.

39. anaphase

40. Telophase • Daughter chromosomes are at the ends of the spindle. • A new nuclear membrane forms around each set of chromosomes (daughter nuclei).

41. telophase

42. Cytokinesis • Division of the cytoplasmic contents (organelles, proteins, membranes, cytoskeleton) • Animal cells: contractile ring • Plant cells: cell plate

43. cytokinesis

44. Variations in Mitosis • Unicellular organisms • Sometimes no cytokinesis • Plants vs. animals • Cytokinesis • Centrioles

45. Variations in Mitosis • All cells • Amount of time • Number of divisions

46. Uses of Mitosis • In multicellular organisms, mitosis allows for growth and repair. • Many organisms carry on reproduction using mitosis. • Asexual reproduction

47. Asexual Reproduction • Producing a new organism using only mitotic cell divisions • Examples • Fragmentation • Budding • Spores

48. Meiosis The reduction of a cell’s chromosome number from diploid to haploid by two consecutive cell divisions

49. Meiosis • Forms haploid cells • Haploid cells (one from each parent) can then unite to form a diploid cell called a zygote.

50. The reason:2n + 2n = 4nNot Good!