Categorie: Tutti - replication - synthesis - scientists - chromosomes

da Natalie Mammone mancano 3 anni

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UNIT 3: Molecular Genetics

DNA replication is a critical process that involves unwinding the double helix and synthesizing complementary strands. This process can occur through conservative, dispersive, or semiconservative methods, with key enzymes like DNA helicase playing vital roles.

UNIT 3: Molecular Genetics

UNIT 3: Molecular Genetics

Chromosome Structure and Organization

Translation
Aminoacyl-tRNA synthesis
Wobble Hypothesis
tRNA
Ribosomes
What is Needed For Translation
Protein Synthesis
Transcription

Post-Transcriptional Modifications

Splicing

Capping and Tailing

Termination

Elongation

Initiation

Gene Organization In Chromosomes
Centromeres
Telomeres
Variable Number Tandem Repeats
Structure of Chromosomes
Prokaryote DNA

Nucleotide and Plasmids

Histone
Chromatin
Chromosomes

DNA Replication

Process of DNA Replication
DNA Repair
Replication Bubble
Building Complimentary Strands

Leading and Lagging Strand

Unwinding DNA

DNA Helicase, Single Stranded Binding Protein DNA gyrase (topoisomerase)

How is DNA replicated?
Dispersive
Conservative
Semiconservative

Genetic Technologies

DNA Microarray
Sequencing DNA
Gel Electrophoresis
Polymerize Chain Reaction
Hybridization
Plasmid Map
Restriction Enzymes and Their Restriction Sites
HhaI
AluI
HindIII
SmaI
BamHI
EcoRI

Control Mechanisms

The trp Operon
The lac Operon

Scientists and their Experiments

9. Watson and Crick
8. Franklin and Wilkins
7. Hershey and Chase
6. Chargaff
Subtopic
5. Oswald, McLead, and McCarty
4. Hammerling
3. Griffith
2. Levene
1. Meischer