Higher Human Biology 1.2 Structure and replication of DNA
Higher Human Biology
0% Completed
Unit 1: Human Cells
1.1 Division and differentiation in human cells
Reading
Quiz: 1.1 Division and differentiation in human cells
Quiz
1.2 Structure and replication of DNA
Reading
Quiz: 1.2 Structure and replication of DNA
Quiz
1.3 Gene Expression
Reading
Quiz: 1.3 Gene Expression
Quiz
1.4 Mutations
Reading
Quiz: 1.4 Mutations
Quiz
1.5 Human Genomics
Reading
Quiz: 1.5 Human Genomics
Quiz
1.6 Metabolic Pathways
Reading
Quiz: 1.6 Metabolic Pathways
Quiz
1.7 Cellular Respiration
Reading
Quiz: 1.7 Cellular Respiration
Quiz
1.8 Energy Systems in Muscle Cells
Reading
Quiz: 1.8 Energy Systems in Muscle Cells
Quiz
End of Topic Test for Unit 1
Quiz
Unit 2: Physiology and Health
2.1 Gamete production and fertilisation
Reading
Quiz: 2.1 Gamete production and fertilisation
Quiz
2.2 Hormonal control of reproduction
Reading
Quiz: 2.2 Hormonal control of reproduction
Quiz
2.3 The biology of controlling fertility
Reading
Quiz: 2.3 The biology of controlling fertility
Quiz
2.4 Ante- and postnatal screening
Reading
Quiz: 2.4 Ante and Postnatal Screening
Quiz
2.5 The structure and function of arteries, capillaries and veins
Reading
Quiz: 2.5 The structure and function of arteries, capillaries and veins
Quiz
2.6 The structure and function of the heart
Reading
Quiz: 2.6 The structure and function of the heart
Quiz
2.7 Pathology of cardio vascular disease (CVD)
Reading
Quiz: 2.7 Pathology of cardio vascular disease (CVD)
Quiz
2.8 Blood glucose levels and obesity
Reading
Quiz: 2.8 Blood glucose levels and obesity
Quiz
End of Unit 2 Test
Quiz
Unit 3: Neurobiology and Immunology
3.1 Divisions of the nervous system and neural pathways
Reading
Quiz: 3.1 Divisions of the Nervous System and Neural Pathways
Quiz
3.2 The cerebral cortex
Reading
Quiz: 3.2 The Cerebral Cortex
Quiz
3.3 Memory
Reading
Quiz: 3.3 Memory
Quiz
3.4 The cells of the nervous system and neurotransmitters at synapses
Reading
Quiz: 3.4 The cells of the nervous system and neurotransmitters at synapses
Quiz
3.5 Non-specific body defences
Reading
Quiz: 3.5 Non Specific Defences
Quiz
3.6 Specific cellular defences against pathogens
Reading
3.6 Specific cellular defences against pathogens
Quiz
3.7 Immunisation
Reading
Quiz: 3.7 Immunisation
Quiz
3.8 Clinical trials of vaccines and drugs
Reading
Quiz: 3.8 Clinical trials of vaccines and drugs
Quiz
End of Unit 3 Test
Quiz
Experiment Design, Calculations, and Skills
Experimental Design
Reading
Quiz: Experimental Design
Quiz
Downloadable Resources to Practice Skills
Reading
Extended Response Questions
ERQ by Past Paper
Reading
All Extended Response Questions (and marking instructions)
Reading
The Assignment
Understanding Standards
Reading
Candidate Instructions
Reading
The Exam
Past Papers
Reading
Marking Instructions
Reading
Question Paper Brief
Reading

(a) Structure of DNA

  • The base sequence of DNA forms the genetic code.
  • DNA is composed of individual units called nucleotides.
  • They contain deoxyribose sugar, phosphate and base.
  • DNA has a sugar–phosphate backbone.
  • Complementary base pairing — adenine with thymine and guanine with cytosine.
  • The two DNA strands are held together by hydrogen bonds and have an antiparallel structure, with deoxyribose and phosphate at 3′ and 5′ ends of each strand.

 

(b) Replication of DNA by DNA polymerase and primers

  • Prior to cell division, DNA is replicated by a DNA polymerase.
  • DNA is unwound and hydrogen bonds between bases are broken to form two template strands.
  • DNA polymerase needs primers to start replication.
  • A primer is a short strand of nucleotides which binds to the 3′ end of the template DNA strand allowing polymerase to add DNA nucleotides.
  • This process occurs at several locations on a DNA molecule.
  • DNA polymerase adds DNA nucleotides, using complementary base pairing, to the deoxyribose (3′) end of the new DNA strand which is forming.
  • Fragments of DNA are joined together by ligase.
  • DNA polymerase can only add DNA nucleotides in one direction resulting in the leading strand being replicated continuously and the lagging strand replicated in fragments.

*You do not need to know about helicase for the Higher Human Biology course.

(c) Polymerase chain reaction (PCR) amplifies DNA using complementary primers for specific target sequences

  • In PCR, primers are short strands of nucleotides which are complementary to specific target sequences at the two ends of the region of DNA to be amplified.
  • Repeated cycles of heating and cooling amplify the target region of DNA.
  • DNA is heated to between 92 and 98 °C to separate the strands.
  • It is then cooled to between 50 and 65 °C to allow primers to bind to target sequences.
  • It is then heated to between 70 and 80 °C for heat-tolerant DNA polymerase to replicate the region of DNA.

Practical applications of PCR

  • PCR can amplify DNA to help
    • solve crimes
    • settle paternity suits
    • diagnose genetic disorders

 

Previous
Next
Scroll to Top