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HONORS BIOLOGY
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IN CLASS:
Objectives: SWBAT (1) create a simple but
compositionally accurate model of the DNA double helix (2) demonstrate
DNA replication using bead models of DNA molecule
Warm-up:
Describe an experiment from the 20th century which clearly demonstrated
that DNA--not protein--was the primary hereditary molecule. [8]
Review DNA replication [5]
DNA Replication Activity: Modeling Replication [50]
Case Study: “Meselson and Stahl Experiment: The Nature of DNA Replication” (on class website)
“The Transforming Principle: Identifying the Molecule of Inheritance” case study DUE (last day to get credit is TODAY)
OUTSIDE OF CLASS:
Case Study: “Meselson and Stahl Experiment: The Nature of DNA Replication”
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BIOLOGY
--------------------------------------------------------------------------------
IN CLASS:
Objectives: SWBAT (1) create a simple but compositionally accurate model of the DNA double helix (2) demonstrate DNA replication using bead models of DNA molecule
Warm-up: Describe an experiment from the 20th century which clearly demonstrated that DNA--not protein--was the primary hereditary molecule. [8]
Review DNA replication [5]
DNA Replication Activity: Modeling Replication [50]
Case Study: “Meselson and Stahl Experiment: The Nature of DNA Replication” (on class website)
“The Transforming Principle: Identifying the Molecule of Inheritance” case study DUE (last day to get credit is TODAY)
OUTSIDE OF CLASS:
Case Study: “Meselson and Stahl Experiment: The Nature of DNA Replication”
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