Photo AI
Last Updated Sep 27, 2025
The Watson Crick Model Simplified Revision Notes for A-Level AQA Biology
Revision notes with simplified explanations to understand The Watson Crick Model quickly and effectively.
293+ students studying
1.5.7 The Watson Crick Model
The Watson-Crick model of DNA, proposed in 1953 by James Watson and Francis Crick, describes the molecular structure of DNA as a double helix. This breakthrough highlighted how DNA's structure allows it to store genetic information, replicate accurately, and undergo mutations necessary for evolution.
Key Features of the Watson-Crick Model
- Double Helix Structure:
- DNA consists of two polynucleotide chains wound around each other to form a helical structure.
- The two strands run antiparallel (one strand runs 5' to 3' while the other runs 3' to 5').
- Components of DNA:
- Nucleotides: Building blocks of DNA, each made of:
- A phosphate group.
- A pentose sugar (deoxyribose).
- A nitrogenous base (adenine, thymine, cytosine, or guanine).
- Phosphodiester Bonds: Nucleotides in a single strand are joined by these bonds, forming the sugar-phosphate backbone.
- Complementary Base Pairing:
- The bases of one strand pair with the bases of the other strand via hydrogen bonds:
- Adenine (A) pairs with Thymine (T) via 2 hydrogen bonds.
- Cytosine (C) pairs with Guanine (G) via 3 hydrogen bonds.
- This base pairing ensures that the sequence of bases in one strand determines the sequence in the other.
- Hydrogen Bonding and Stability:
- Hydrogen bonds hold the two strands together.
- The large number of hydrogen bonds in a DNA molecule provides stability while allowing the strands to separate during replication.
- Helical Turn:
- Each turn of the helix contains 10 base pairs, with a rise of 3.4 nm per turn.
- Replication:
- Watson and Crick suggested a semi-conservative model of replication:
- Each strand serves as a template for a new complementary strand.
- Results in two DNA molecules, each with one original strand and one new strand.
Importance of the Watson-Crick Model
- Demonstrates how DNA can:
- Store information: The sequence of bases encodes genetic instructions.
- Replicate accurately: Ensures genetic continuity between generations.
- Undergo mutation: Base sequence changes lead to genetic variation.
Tip for Exams:
When discussing the Watson-Crick model:
- Always mention the double helix, complementary base pairing, and antiparallel strands.
- Be clear about the role of hydrogen bonds in stability and phosphodiester bonds in forming the backbone.
500K+ Students Use These Powerful Tools to Master The Watson Crick Model For their A-Level Exams.
Enhance your understanding with flashcards, quizzes, and exams—designed to help you grasp key concepts, reinforce learning, and master any topic with confidence!
70 flashcards
Flashcards on The Watson Crick Model
Revise key concepts with interactive flashcards.
Try Biology Flashcards7 quizzes
Quizzes on The Watson Crick Model
Test your knowledge with fun and engaging quizzes.
Try Biology Quizzes9 questions
Exam questions on The Watson Crick Model
Boost your confidence with real exam questions.
Try Biology Questions27 exams created
Exam Builder on The Watson Crick Model
Create custom exams across topics for better practice!
Try Biology exam builder17 papers
Past Papers on The Watson Crick Model
Practice past papers to reinforce exam experience.
Try Biology Past PapersOther Revision Notes related to The Watson Crick Model you should explore
Discover More Revision Notes Related to The Watson Crick Model to Deepen Your Understanding and Improve Your Mastery
96%
114 rated
Nucleic Acids: Structure & DNA Replication
The Function of DNA & RNA
203+ studying
199KViews96%
114 rated
Nucleic Acids: Structure & DNA Replication
Nucleotide Structure & the Phosphodiester Bond
296+ studying
186KViews96%
114 rated
Nucleic Acids: Structure & DNA Replication
The Origins of Research on the Genetic Code
427+ studying
191KViews