1. The Components and Structure of DNA DNA – deoxyribonucleic acid
Deoxyribose – a 5 Carbon sugar in DNA
DNA is made up of monomers called
nucleotides
Nucleotide – made of a phosphate group (PO4), a 5 carbon sugar (deoxyribose) and a nitrogen base
4 Nitrogen Bases in DNA
Adenine
Guanine
Cytosine
Thymine
Notes modified from large unit
Purines – double ring
Pyrimidines – single ring

3. Nucleotides join together to form long chains
The phosphate group and deoxyribose form the backbone of the chain (sides of the ladder)
Nitrogen bases form the steps of the ladder
Erwin Chargoff’s Rule
The amount of adenine equals thymine
The amount of guanine equals cytosine

4. Phosphate
Group (PO4)
5 carbon sugar-Deoxyribose
nitrogen base
hydrogen bond
nucleotide

5. History of DNA
Rosalind Franklin and Maurice Wilkins worked on the structure of DNA based on x-ray crystallography (pictures of DNA by x-rays).
James Watson and Francis Crick were also working on the structure of DNA
These scientists were trying to be the first to discover and prove the structure of DNA because they knew it would be one of the most important discoveries in the 20th century.

7. 1953 Watson and Crick proposed that DNA is made of two chains of nucleotides joined together by nitrogen bases
Two bases are held together by hydrogen bond
Two strands are complementary
Complementary base pairing
A and T
C and G
DNA is shaped in a double
helix

8. Cytosine (C) pairs with Guanine (G)
Adenine (A) pairs with Thymine (T)

9. A A G C T T G C C A T C A G T G G A C G T A C C G T

10. The Importance of Nucleotide Sequences
All living organisms are composed of A, T, C, G
How can organisms be so different from each other if their genetic material is made of the same four nucleotides?
Differences in organisms are from the sequence of the four different nucleotides and how many nucleotides
The closer the relationship between two organisms the greater the similarity in their order of DNA nucleotides

12. The Importance of Nucleotide Sequences
Scientists use nucleotide sequences to determine evolutionary relationships among organisms
Nucleotide sequences can also be used to determine whether two people are related
DNA from a crime scene matches the DNA of a suspected criminal

13. DNA and Chromosomes
Eukaryotic DNA is found in the nucleus in the form of a number of chromosomes
DNA molecules are very long.

14. Human cell contains more than 1 meter of DNA
How is so much DNA folded into tiny chromosomes?
Chromatin – DNA that is tightly coiled around proteins
Histones – proteins DNA is wrapped around
Nucleosome – two wraps of DNA around a histone

15. Replication of DNA
Before a cell can divide by mitosis or meiosis it must first make a copy of its chromosomes
DNA Replication – DNA is copied
All organisms undergo replication

16. How DNA Replicates
During replication each strand serves as a pattern to make a new DNA molecule
The end result is the formation of two DNA molecules that are identical (duplicated chromosome)

17. Steps of Replication
Enzyme, DNA helicase, breaks the hydrogen bonds between nucleotides, this “unzips” the DNA molecule
Free nucleotides from the surroundings in the nucleus bond to the single strands. Enzyme, DNA polymerase glues the new strands together

18. 3. This continues until the entire molecule has been unzipped and replicated. DNA polymerase proofreads the DNA to check for mistakes.
4. Each new strand formed is a complement of one of the originals or parent strand.
5. Two DNA molecules that are identical