1. DNA Structure

2. By the early 1900’s it was known that the chromosomes carry the genetic (hereditary) information
Chromosomes consist of DNA (deoxyribonucleic acid)

3. I. Chemical Structure of DNA
Nucleotide:
1. Thousands of repeating units that make up the DNA (DNA is a polymer)

4. Parts of DNA a phosphate group a deoxyribose molecule (5-carbon sugar)
THESE MAKE A SUGAR PHOSPAHTE BACKBONE
a nitrogenous base
adenine, thymine, guanine, cytosine
(There are four different types of nucleotides, depending on which of the four bases is present- A, T, C, or G)

5. II. The Watson-Crick Model of the Structure of DNA
DNA consists of two chains of nucleotides in a ladder-like structure which is twisted
(Double Helix)

6. James Watson & Francis Crick:
Used data of M.H.F. Wilkins and Rosalind Franklin, early 50’s
Wilkins and Franklin studied the structure of DNA crystals using X-rays.
The X pattern suggested the structure of DNA was a helix.
Distance between the two “backbones” of DNA
is constant along the length of the molecule

7. Used data of Erwin Chargaff, 1940’s and early 50's
Chargaff’s Rule: His data showed that in each species, the percent of A equals the percent of T, and the percent of G equals the percent of C.

8. Watson and Crick (1953)

9. Watson and Crick Model:
The sides of the ladder are made up of alternating molecules of phosphate and deoxyribose sugar
B. The bases make up the rungs of the ladder

10. C. The bases that make up the rungs of the ladder are attracted by a weak chemical bonds called hydrogen bonds

11. Base Pairing Rule Adenine (A) pairs with Thymine (T)
Guanine (G) pairs with Cytosine(C)

14. Watson and Crick’s Double Helix Model explained:
1. how replication of DNA during mitosis produces exact copies for the daughter cells
2. how DNA acts as a code, specifying how proteins are made by the cell

15. DNA Replication

16. The double-stranded DNA molecule separates or “unzips” along the weak hydrogen bonds between the base pairs

17. 2. Free nucleotides that are present in the nucleus attach themselves by hydrogen bonds to the exposed bases
(A-T, C-G)

18. 3. Two identical strands form from each strand of DNA

19. DNA Replication Animation

20. If the order of bases along one strand of DNA is
AGGTTACTGCAC
what is the order of bases on the complementary strand?

21. TCCAATGACGTG

22. How Does DNA Act As A Code?
The order of bases on the DNA strand instructs the ribosomes how to synthesize (make) proteins

23. Gene: portion of DNA that codes for the production of a specific polypeptide (protein)

24. Polypeptide: building block of a protein

27. In terms of decreasing size:
Nucleus → Chromosome → Gene → DNA