DNA. Discovery of the DNA double helix

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Transcription:

DNA Replication

DNA Discovery of the DNA double helix A. 1950 s B. Rosalind Franklin - X-ray photo of DNA. C. Watson and Crick - described the DNA molecule from Franklin s X-ray.

What is DNA? Question:

Deoxyribonucleic Acid (DNA) Made up of nucleotides (DNA molecule) in a DNA double helix. Nucleotide: 1. Phosphate group 2. 5-carbon sugar 3. Nitrogenous base ~2 nm wide

Phosphate Group DNA Nucleotide =P- CH2 C 4 Sugar (deoxyribose) 5 C 3 C 2 C 1 N Nitrogenous base (A, G, C, or T)

DNA Double Helix Rungs of ladder Nitrogenous Base (A,T,G or C) Legs of ladder Phosphate & Sugar Backbone

5 DNA Double Helix 3 P 3 5 P 5 1 G C 2 3 4 4 P 5 3 2 T A 1 3 5 P P 3 5 P

Nitrogenous Bases PURINES 1. Adenine (A) 2. Guanine (G) PYRIMIDINES 3. Thymine (T) 4. Cytosine (C) T or C A or G

BASE-PAIRINGS Base # of Purines Pyrimidines Pairs H-Bonds Adenine (A) Thymine (T) A = T 2 Guanine (G) Cytosine (C) C G 3 3 H-bonds G C

BASE-PAIRINGS H-bonds G C T A

Chargaff s s Rule Adenine must pair with Thymine Guanine must pair with Cytosine Their amounts in a given DNA molecule will be about the same. T A G C

Question: If there is 30% Adenine, how much Cytosine is present?

Answer: There would be 20% Cytosine. Adenine (30%) = Thymine (30%) Guanine (20%) = Cytosine (20%) (50%) = (50%)

Question: When and where does DNA Replication take place?

Synthesis Phase (S phase) S phase in interphase of the cell cycle. Nucleus of eukaryotes DNA replication takes place in the S phase. S phase G 1 G interphase 2 Mitosis -prophase -metaphase -anaphase -telophase

DNA Replication rigins of replication 1. Replication Forks: hundreds of Y-shaped regions of replicating DNA molecules where new strands are growing. 3 5 3 Parental DNA Molecule Replication Fork 5

DNA Replication rigins of replication 2. Replication Bubbles: a. Hundreds of replicating bubbles (Eukaryotes). b. Single replication fork (bacteria). Bubbles Bubbles

DNA Replication Strand Separation: 1. Helicase: enzyme which catalyze the unwinding and separation (breaking H- Bonds) of the parental double helix. 2. Single-Strand Strand Binding Proteins: proteins which attach and help keep the separated strands apart.

DNA Replication Strand Separation: 3. Topoisomerase: enzyme which relieves stress on the DNA molecule by allowing free rotation around a single strand. Enzyme Enzyme DNA

DNA Replication Priming: 1. RNA primers: before new DNA strands can form, there must be small pre-existing primers (RNA) present to start the addition of new nucleotides (DNA Polymerase). 2. Primase: enzyme that polymerizes (synthesizes) the RNA Primer.

DNA Replication Synthesis of the new DNA Strands: 1. DNA Polymerase: with a RNA primer in place, DNA Polymerase (enzyme) catalyze the synthesis of a new DNA strand in the 5 5 to 3 3 direction. 5 3 Nucleotide DNA Polymerase RNA Primer 5

Phosphate Group Remember!!!! =P- CH2 C 4 Sugar (deoxyribose) 5 C 3 C 2 C 1 N Nitrogenous base (A, G, C, or T)

5 Remember!!!!! 3 P 3 5 P P 5 4 5 3 1 2 T G A C 2 3 1 3 4 5 P P 3 5 P

DNA Replication Synthesis of the new DNA Strands: 2. Leading Strand: synthesized as a single polymer in the 5 to 3 3 direction. 5 3 Nucleotides DNA Polymerase RNA Primer 5

DNA Replication Synthesis of the new DNA Strands: 3. Lagging Strand: also synthesized in the 5 to 3 3 direction, but discontinuously against overall direction of replication. 5 3 5 3 DNA Polymerase Lagging Strand RNA Primer Leading Strand 3 5 3 5

DNA Replication Synthesis of the new DNA Strands: 4. kazaki Fragments: series of short segments on the lagging strand. 5 kazaki Fragment RNA Primer DNA Polymerase 3 3 Lagging Strand 5

DNA Replication Synthesis of the new DNA Strands: 5. DNA ligase: a linking enzyme that catalyzes the formation of a covalent bond from the 3 to 5 5 end of joining stands. Example: joining two kazaki fragments together. DNA ligase 5 kazaki Fragment 1 kazaki Fragment 2 3 3 Lagging Strand 5

DNA Replication Synthesis of the new DNA Strands: 6. Proofreading: initial base-pairing errors are usually corrected by DNA polymerase.

DNA Replication Semiconservative Model: 1. Watson and Crick showed: the two strands of the parental molecule separate, and each functions as a template for synthesis of a new complementary strand. Parental DNA DNA Template New DNA

DNA Repair Excision repair: 1. Damaged segment is excised by a repair enzyme (there are over 50 repair enzymes). 2. DNA polymerase and DNA ligase replace and bond the new nucleotides together.

Question: What would be the complementary DNA strand for the following DNA sequence? DNA 5 -GCGTATG5 GCGTATG-3

Answer: DNA 5 -GCGTATG5 GCGTATG-3 DNA 3 -CGCATAC3 CGCATAC-5