The History of DNA
Early Work
Friedrich Miescher, 1869, first isolates a substance from the nucleus of cells that he calls “nuclein.” His student, Richard Altmann, calls the substance “nucleic acid.”
Biochemists identify two types of nucleic acids, later called RNA and DNA.
In 1929, Phoebus Levine at the Rockefeller center identifies the four bases of DNA.
What Does DNA Do?
Though early researchers knew that DNA was found in chromosomes, they doubted that it was the hereditary material. There were only four bases. How could for bases code for all sorts of proteins?
Some researchers, including Linus Pauling, thought that the protein also found in chromosomes was probably the hereditary factor.
Frederick Griffith
In 1928, Frederick Griffith carried out experiments on pneumonia bacteria in mice.
Discovery: something in heat-killed virulent bacteria could be transferred to live, harmless bacteria and make them virulent.
Griffith’s Experiment
Oswald Avery
Avery continued working with Griffith’s findings in hope of discovering what factor in bacteria carried the trait of virulence.
Isolated proteins, carbohydrates, nucleic acids and applied them to non-virulent bacteria. Only nucleic acids (DNA) caused a change.
Avery’s Work
Erwin Chargaff
Chargaff studied DNA itself, in hopes of providing some clues about its structure.
Discovered that there are always equal amounts of the bases Adenine and Thymine, and equal amounts of Cytosine and Guanine.
Chargaff proposed that these bases pair with one another in some way.
Wilkins and Franklin
Rosalind Franklin and Maurice Wilkins worked with X-ray crystalography to find more clues about the structure of DNA.
Franklin’s X-ray images suggested a helical structure.
Franklin and Wilkins
Watson and Crick
James Watson and Francis Crick were also working on discovering the structure of DNA.
Applied Chargaff’s rule, assumed that A always pairs with T, C with G.
Watson was not entirely convinced of the helical structure that Franklin had suggested, and his critique of her work led her to doubt herself.
Watson and Crick
Wilkins consulted with Watson and Crick. Without Franklin’s knowledge, he handed them the data that he and Franklin had worked on.
Watson immediately recognized the significance. He and Crick went to work on a model of DNA.
The First DNA Model
DNA structure
DNA is made up of four bases. RNA also has four bases, but has uracil instead of thymine.
DNA structure
Across the DNA double-ladder, A always pairs with T, C always pairs with G because of the number of hydrogen bonds
the bases form.
DNA structure
The DNA ladder forms a spiral, or helical, structure, with the two sides held together with hydrogen bonds.
DNA Replication
Before cells divide, they must double their DNA so that each cell gets identical copies of the DNA strands.
DNA replication helps assure that the bases are copied correctly.
Enzymes carry out the process.
Overview of DNA replication. The hydrogen bonds
break to “unzip” the DNA strand.
Enzymes guide free nucleotides to the
exposed single strands and match the nucleotides.
This diagram from your textbook (page
157) shows how enzymes carry out the
replication process. DNA Helicase unzips
the DNA. DNA Polymerase
synthesizes the new strands, using the old strands as templates.
DNA Replication
Build a DNA Model interactive feature (web)
DNA Replication animation (web)
Summary
DNA is a nucleic acid made up of nucleotides.
The order of the nucleotides is important, and is maintained by matching of bases across the DNA ladder (A-T, C-G), and by enzymes that patrol the DNA
DNA replication occurs before cell division, and is an orderly, enzyme-driven process.