chapter 11: dna & its role in heredity
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Chapter 11: DNA & Its Role in Heredity. THE GENETIC MATERIAL. Finding the molecule…..the material must be… Able to store information that pertains to the development, structure and metabolic activities of the cell Stable so that it can be replicated Able to undergo changes ( mutations ). - PowerPoint PPT PresentationTRANSCRIPT
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Chapter 11: DNA & Its Role in Heredity
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Finding the molecule…..the material must be…
1.Able to store information that pertains to the development, structure and metabolic activities of the cell
2.Stable so that it can be replicated3.Able to undergo changes (mutations)
THE GENETIC MATERIAL
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1869 – Discovering Nucleic Acids• Swiss Physician, Johannes Friedrich
Miescher isolated the chemical he called “nuclein” from the nuclei of pus cells
• Now called nucleic acids DNA (deoxyribonucleic acid) RNA (ribonucleic acid)
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NUCLEOTIDES (found in nuclein)
Contain a sugar, phosphate and a nitrogen base
Adenine Guanine Cytosine Thymine
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THE BIG QUESTIONIs it nucleic acids that contain the genetic code or is it proteins?
Proteins contain 20 amino acids that can be organized in countless ways to determine traits
Nucleic acids only contained 4 different nucleotides
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TRANSFORMATION OF BACTERIA
Frederick Griffith attempted to find a vaccine against Pneumococcus sp.
He found that one type of bacteria could turn into another
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DNA WAS DETERMINED TO BE THE TRANSFORMING SUBSTANCE Conclusions:
• DNA from S strain bacteria causes R strain to be transformed
• Enzymes that degrade proteins will not stop the transformation
• Enzymes that degrade DNA does stop the transformation
Transformation Animation Activity
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Alfred Hershey and Martha Chase Experiments
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Bacteriophages – viruses that infect bacteria
• Consist of a protein capsid• And a core of DNA (or RNA)• Experiments used radioactive sulfur to tag
the protein• And radioactive phosphorous to tag the DNA
• The goal was to see which substance (protein or DNA) moved into the infected cell
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Conclusion: The radioactive tag on the DNA went into the bacteria
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Conclusion: The radioactive tag on the protein did not go into the bacteria
Animation of the Hershey and Chase Experiment
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THE RACE IS ON!Who will be the first to discover the structure of DNA?
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Who is in the race?
Erwin Chargaff* Noted that all a species had similar ratios of A, T, G, C
Chargaff’s Rule1.Amount of A, T, G, C varies by
species2.A = T
G = C always
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ROSALIND FRANKLIN & MAURICE WILKINS• Took pictures of DNA using X-RAY DIFFRACTION
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WATSON & CRICK
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DNA: THE DOUBLE HELIX
• Steps of ladder are bases (A, T, G, C)
• Sides of ladder are sugar & phosphate
• Both sides held together by hydrogen bonds
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5’ and 3’ ENDS
Each Side is ANTIPARALLEL
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• Nucleotide =o 1 baseo Deoxyribose (sugar)o 1 phosphate
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What’s wrong with this drawing?
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DNA DOUBLE HELIX - origami Origami template
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DNA REPLICATION-the process by which DNA makes a copy of itself-occurs during interphase, prior to cell division
Replication is called semi-conservative, because one half of the original strand is always saved, or "conserved“
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1. DNA helicase , replication fork.2. DNA polymerase adds nucleotides and binds the sugars and phosphates.
***DNA polymerase travels from the 3' to the 5' end. The DNA is called the template strand.***
3. One side is the leading strand - it follows the helicase as it unwinds.
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5. The other side is the lagging strand - its moving away from the helicase (in the 5' to 3' direction).OKAZAKI FRAGMENTS are bound by DNA LIGASE
Problem: it reaches the replication fork, but the helicase is moving in the opposite direction. It stops, and another polymerase binds farther down the chain.
6. Multiple replication forks all down the strand.
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DNA Replication
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Animations and Videos of DNA REPLICATION
DNA Replication at stolaf.edu
How Nucleotides are Added in DNA Replication (mcgraw-hill)
DNA Replication Tutorial at wiley.com
DNA Replication Fork at harvard.edu
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