| Item | Key Features | Notes / Differences |
|---|---|---|
| Replication Type | Semi-conservative | One old + one new strand per molecule |
| Speed | ~100 nucleotides/sec in eukaryotes | Very rapid in vivo |
| Origin of Replication | Multiple, bidirectional origins | "Eyes of replication" |
| Leading Strand | Continuous synthesis in 5' to 3' direction | Toward replication fork |
| Lagging Strand | Discontinuous synthesis (Okazaki fragments) | Away from replication fork |
| Mutation Types | Substitution, insertion, deletion | Changes in DNA sequence |
| Error Rate | ~1 mistake per 100,000 nucleotides | Corrected by repair enzymes |
| Mutagenic Agents | UV (thymine dimers), X-rays, chemicals | Cause DNA damage |
DNA
├─ Structure
│ └─ Double helix, complementary strands
├─ Replication
│ ├─ Initiation: unwinding at origins
│ ├─ Elongation: DNA polymerase adds nucleotides
│ └─ Termination: completion of replication
├─ Mutations
│ ├─ Types: substitution, insertion, deletion
│ └─ Causes: errors, mutagens
└─ Repair & Variability
├─ Enzymatic correction
└─ Mutations → diversity or disease
End of Revision Sheet
Pon a prueba tus conocimientos sobre DNA Replication and Mutation Fundamentals con 9 preguntas de opción múltiple con correcciones detalladas.
1. During DNA replication, which enzyme is responsible for synthesizing new DNA strands?
2. What is the primary function of DNA polymerase during replication?
Memoriza los conceptos clave de DNA Replication and Mutation Fundamentals con 10 tarjetas de memoria interactivas.
DNA — structure?
Double helix with complementary strands
DNA — what shape?
Double helix
DNA polymerase — role?
Synthesizes new DNA strands during replication
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