1. DNA Structure and Replication

2. Lifespan Gene In The News

3. Chromosomes Contain all information for an organism Karyotype = arrangement of chromosomes

4. Eukaryotic Chromosomes Chromatin = –DNA –Histone proteins – condenses to form strands called chromosomes, –Strands occur just prior and during cell division

5. DNA Double stranded, coiled molecule

6. Discovery of Hereditary Material Friedrich Miescher (1869) –Isolates “nuclein” from nucleus – was not called DNA until the 1920’s –No notion it contained hereditary material Gregor Mendel (late 1800s) –Pioneering work in genetics –Traits are inherited discrete factors

7. Discovery of Hereditary Material Walter Sutton (early 1900s) –Suggested chromosomes held hereditary factors –No direct evidence for support Thomas Hunt Morgan (1910) –Provided experimental evidence to support Sutton –Identified X (sex) hormone – worked with chromosomes of fruit flies and eye color

8. Discovery of Hereditary Material Phoebus Levene (1920s) –Two types of nucleic acid in cells, composed of repeating nucleotides –Both types with nearly identical structures – DNA & RNA are the 2 types

9. Nucleotide Structure Three different components –Phosphate group –Nitrogen containing base (A,T,G,C,U) –Five-carbon sugar ( ribose or deoxyribose )

10. Nitrogen Containing Bases

11. Discovery of Hereditary Material Oswald Avery (early 1940s) –Preliminary evidence for DNA as hereditary material –Transformed bacteria by transferring DNA

12. Discovery of Hereditary Material Edwin Chargaff (late 1940s) –Proportion of bases varies in the DNA of different type organisms –Portions of bases roughly equal, (A=T & C =G) –Purines = pyrimidines (A + G = C + T)

13. Discovery of Hereditary Material George Beadle & Edward Tatum (1950s) –One-gene-one-enzyme theory –Enzyme production under control of genes Alfred Hershey & Martha Chase (1952) confirmed –Building of Avery’s work, confirmed DNA as hereditary material

15. Discovery of Hereditary Material Rosalind Franklin & Maurice Wilkins (1953) –Developed double helix model for DNA –Evidence from X-ray diffraction

16. Discovery of Hereditary Material James Watson & Francis Crick (1953) –Structure of DNA –Synthesized previous research –Nobel Prize in 1962, along with Wilkins, Franklin died before nominations were made

17. Structure of DNA

18. Discovery of Genetic Code

19. DNA is Self-Replicating Before Cells divide –Enzymes break bonds between bases –Complementary strands separate –Complementary bases are added to strands –Copy of DNA results

21. Replication Mechanisms Replication begins at various points Proceeds in both directions

22. Replication Mechanisms DNA molecule separates at its bases Forms split, or replication fork Each strand acts as a template

23. Replication Mechanisms Replication proceeds from 5‘ to 3‘ end

24. Genes One-gene-one-enzyme theory –Production of a given enzyme is under control of a specific gene –Production of a given peptide is under control of a single gene (revised statement)

25. Gene The unit of heredity Is a sequence of nucleotides Codes for amino acid sequences of polypeptides or for RNA

26. DNA Sequences Genome = all genetic information Promoters = “start here” part of sequence Introns = extra sequences between polypeptide-specifying portions, are not expressed, interrupt most eukaryotic genes Exons = portions of a gene that are expressed

27. Repeated Sequences Repetitive DNA 20-50% of eukaryotic DNA May play structural roles in chromosomes

28. Repeated Sequences Telomeres –At ends of chromosomes –Shorten as cell replicates –Cells do not function when telomeres become too short Telomeres in yellow

29. Mutations Change can occur in DNA Point mutation or gene mutation –Change in genetic message Chromosome mutation

30. Sources of Mutation Ionizing radiation Ultraviolet radiation Some chemicals Transposable elements

31. Transposable Elements “jumping genes” Some DNA sequences move from one position to another Make up more than 40% of human genome First reported by Barbara McClintock

32. Transposable Elements Significance –Contribute to rate of mutation –May cause visible changes Example: mottling in corn

33. End Chapter 9