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Ch. 15 - DNA ReplicationWorksheetSee all chapters
All Chapters
Ch. 1 - Introduction to Microbiology
Ch. 2 - Disproving Spontaneous Generation
Ch. 3 - Chemical Principles of Microbiology
Ch. 4 - Water
Ch. 5 - Molecules of Microbiology
Ch. 6 - Cell Membrane & Transport
Ch. 7 - Prokaryotic Cell Structures & Functions
Ch. 8 - Eukaryotic Cell Structures & Functions
Ch. 9 - Microscopes
Ch. 10 - Dynamics of Microbial Growth
Ch. 11 - Controlling Microbial Growth
Ch. 12 - Microbial Metabolism
Ch. 13 - Photosynthesis
Ch. 15 - DNA Replication
Ch. 16 - Central Dogma & Gene Regulation
Ch. 17 - Microbial Genetics
Ch. 18 - Biotechnology
Ch. 21 - Viruses, Viroids, & Prions
Ch. 22 - Innate Immunity
Ch. 23 - Adaptive Immunity
Ch. 24 - Principles of Disease
The Griffith Experiment
The Hershey-Chase Experiment
Chargaff's Rules
Discovering the Structure of DNA
Meselson-Stahl Experiment
Introduction to DNA Replication
DNA Polymerases
Leading & Lagging DNA Strands
Steps of DNA Replication
DNA Repair

Concept #1: Discovering the Structure of DNA

Practice: The scientist/s that was/were given credit for first determining the structure of DNA is/are:

Practice: The scientist/s that used x-ray diffraction to help reveal the structure of DNA is/are:

Concept #2: Discovering the Structure of DNA

Practice: In the polymerization of DNA, a phosphodiester bond is formed between a phosphate group of the nucleotide being added and which of the following atoms or molecules of the last nucleotide in the DNA strand?

Practice: Within a double-stranded DNA molecule, adenine (A) forms hydrogen bonds with thymine (T), and cytosine (C) forms hydrogen bonds with guanine (G). What is the significance of the structural arrangement?