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Criteria for Hereditary Material
1) Found in nucleus
2) Arranged into chromosomes
3) Can control heredity
4) Self-replicating
How did scientists show that the transforming material was DNA?
Pneumoniae cell extracts contain protein, DNA, and RNA.
How did scientists show that the transforming material was DNA?
Avery, MacLeod and McCarthy
1) Mix dead S and
Live R bacteria
2) Add protease
3) Add RNA-ase
4) Add DNA-ase
Conclusion: DNA is the hereditary material!
http://www.youtube.com/watch?v=9hzUjx_oD8E
Techno
http://www.youtube.com/watch?v=xXbyJNRwjlg
April 29, 2010Ms. Simon Regents Biology
• Do Now: Turn in Lab Activity
• How did Griffiths show that bacteriophage DNA can “transform”?
DNA
• Stored in the nucleus as chromosomes
• Each chromosome is a long strand of DNA
• Chromosomes are coiled using histones (proteins)
What is the structure of DNA?
DNA= Deoxyribose nucleic acid
The monomers of DNA are nucleotides
• Each nucleotide contains:
1) phosphate (PO4) backbone
2) deoxyribose (5 Carbon sugar)
3) nitrogenous base
Nitrogenous Bases
Purines have two rings
Pyrimidines have one
ring
Chargoff analyzed DNA of different species
# Adenine= # Thymine# Guanine= #Cytosine
Hypothesis: Maybe A is bound to T and G is bound to C
Rosalind Franklin• X-ray diffraction technique- allows her to
take pictures of DNA’s structure
• Helix shape
Watson and Crick
• Won the Noble Prize for discovering the structure of DNA
• Model of DNA is a double helix, two strands are wound around each other
Double-helix model
Ribose and Phosphate
on the outside
Nitrogenous bases pair
as “rungs” of the ladder
equidistant
Nitrogenous bases are bound through weak hydrogen bonds
Phosphates and riboses are covalently bonded
• Adenine and Thymine= 2 hydrogen bonds
• Guanine and cytosine= 3 hydrogen bonds
Template Strand
C T A G T T A C A
G A T C A A T G T
Complementary Strand
During DNA replication, DNA molecule separates into two
strands.
Two new complementary strands are formed.
Replication is carried out by enzymes that unzip DNA molecule
Helicase- enzyme that unwinds DNA
DNA Polymerase
• DNA polymerase forms the new strand of DNA
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