1. Nucleotides
1.1 Base
1.2 Sugar
1.3 Phosphate
1.4 Bonds
1.4.1 Glycosidic Bond
1.4.2 Phosphodiester Bond
1.4.3 Hydrogen Bond (¼ö¼Ò°áÇÕ)
1.4.4 Base Stacking
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2. Helices
2.1 Watson-Crick Helix (B form)
2.2 A Form Helix
2.3 Z Form Helix
2.4 Denaturation°ú Renaturation
2.4.1 Melting Curve
2.4.2 Hysteresis
2.4.3 High pH¿¡¼ÀÇ Denatuaration
2.4.4 Organic Solvent¿¡ ÀÇÇÑ Denaturation
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3. Tertiary Structure of DNA
3.1 Circular DNA¿¡¼ÀÇ Supertwist
3.1.1 Supertwisted DNAÀÇ ¹ß°ß
3.1.2 Topological Bond
3.1.3 Sings of Supertwist
3.1.4 µÎ °¡Áö ¸ð¾çÀÇ Supertwist
3.1.5 Linking Number (LK)
3.1.6 Superhelical DensityÀÇ ÃøÁ¤
3.2 Linear DNA¿¡¼ÀÇ Supertwist
3.3 Supertwisted DNAÀÇ »ý¹°ÇÐÀû ÀÇÀÇ
3.4 Supertwisted DensityÀÇ Control
5. Topoisomerase
5.1 Type I Topoisomerase
5.2 Type II Topoisomerase
5.3 Maintaining Superhelical Density
5.4 Classification
5.5 TopoisomeraseÀÇ in vivo Function
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Part 3. DNA º¹Á¦ÀÇ ±âº»¿øÄ¢°ú ¿¬±¸°úÁ¤
1. In vivo DNA Synthesis
1.1 Semiconservative DNA Replication
1.2 Replicon Model
1.3 DNA Dilemma
1.4 DNA Neodilemma
1.5 Completion of Replication
1.6 Origin¿¡¼ÀÇ Priming
2. E. coli DNA Replication
2.1 Mustant Study
2.2 Single Strand DNA Phage Replication
2.3 T7 Replication
3. Initiation of DNA Replication
3.1 E. coli Replication Origin
3.2 3°¡ÁöÀÇ Repeat ±¸Á¶
3.3 Initiation Mechanism
