7.2.3

Transcription

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Transcription

Transcription is the first step in protein synthesis. As a result of this process, mRNA that is a copy of the target gene is produced in the nucleus. The stages involved are:

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1) Binding of RNA polymerase

  • RNA polymerase is the enzyme that allows transcription to take place.
  • RNA polymerase binds to the locus of the gene to be transcribed (the target gene).
    • The region of DNA to which RNA polymerase binds is known as the promoter.
  • In most cases, promoters exist upstream of the genes they regulate.
  • The specific sequence of a promoter is very important because it determines whether the corresponding gene is transcribed all the time, some of the time, or infrequently.
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2) Separation of DNA strands

  • When RNA polymerase binds to DNA, the hydrogen bonds that bind the two strands together break. This is different to DNA replication, where DNA helicase separates the strands.
  • The DNA strands separate.
  • The bases of the target gene are exposed.
    • The strand that is copied depends on the gene being transcribed.
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3) Binding to template strand

  • RNA polymerase binds free-floating RNA nucleotides to the template strand.
    • The template strand is complementary to the base sequence of the target gene. It is sometimes referred to as the noncoding, minus, or antisense strand.
    • Nucleotides are added in the 5'-3' direction.
  • The RNA nucleotides form a strand of mRNA that is complementary to the template strand.
    • The template strand is complementary to the gene so this means mRNA is a copy of the gene.
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4) Joining the nucleotides

  • The free-floating nucleotides are joined together by RNA polymerase.
  • Phosphodiester bonds form between the nucleotides in a condensation reaction to form the completed strand of mRNA.
  • As elongation proceeds and the mRNA strand grows, the DNA is continuously unwound ahead of the core enzyme and rewound behind.
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5) Termination

  • RNA polymerase eventually reaches a stop codon - a triplet of bases that signal 'stop'.
  • The RNA polymerase stops producing mRNA.
  • Another mechanism of stoping transcription is controlled by specific sequences in the DNA template strand.
  • As the polymerase nears the end of the gene being transcribed, it encounters a region rich in C–G nucleotides.
  • The mRNA folds back on itself, and the complementary C–G nucleotides bind together.
    • The result is a hairpin that causes polymerase to stall.
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6) Removal of the mRNA

  • The mRNA strand is separated from the template strand by RNA polymerase.
  • The hydrogen bonds between the two strands of DNA form again and the strands join together.
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7) mRNA leaves the nucleus

  • In eukaryotes, the completed mRNA strand leaves the nucleus and enters the cytoplasm.
  • mRNA is used in translation, the next step in protein synthesis.
    • Remember, prokaryotes don't have a nucleus. This means transcription occurs in the cytoplasm.

Jump to other topics

1Cell Biology

1.1Introduction to Cells

1.1.1Introduction to Cells

1.1.2Cell Size & Surface Area

1.1.3Surface Area to Volume Ratio

1.1.4Eukaryotic vs Prokaryotic Cells

1.1.5Stem Cells

1.1.6Stem Cells in Disease

1.2Ultrastructure of Cells

1.2.1Eukaryotic Cells & Organelles

1.2.2Golgi, Lysosomes & Ribosomes

1.2.3Cell Walls & Vacuole

1.2.4Prokaryotes

1.2.5Binary Fission

1.2.6Subcellular Components & Organelles

1.3Membrane Structure

1.3.1Cell Membrane Structure & Permeability

1.4Membrane Transport

1.4.1Passive Movement Across Membranes

1.4.2Active Movement Across Membranes

1.4.3Endocytosis & Exocystosis

1.5The Origin of Cells

1.5.1Origins - Endosymbiosis

1.6Cell Division

1.6.1The Cell Cycle

1.6.2Mitosis

1.6.3Regulation of the Cell Cycle

1.6.4End of Topic Quiz - The Cell Cycle

1.6.5IB Multiple Choice - The Cell Cycle

1.6.6Extended Response - Mitosis

2Molecular Biology

2.1Water

2.1.1Water & Hydrogen Bonding

2.1.2IB Multiple Choice - Water & Hydrogen Bonding

2.1.3Extended Response - Water

2.2Carbohydrates & Lipids

2.2.1Monosaccharides

2.2.2Disaccharides & Polysaccharides

2.2.3Triglycerides & Phospholipids

2.2.4Cellulose

2.2.5Starch & Glycogen

2.3Proteins

2.3.1Structure & Functions of Proteins

2.4Enzymes

2.4.1Enzymes

2.4.2Factors Affecting Enzyme Activity

2.4.3Enzyme-Controlled Reactions

2.4.4End of Topic Test - Enzymes

2.5Structure of DNA & RNA

2.5.1DNA & RNA

2.6DNA Replication, Transcription & Translation

2.6.1Protein Synthesis

2.6.2Transcription & Translation

2.6.3End of Topic Test - DNA, Genes & Protein Synthesis

2.6.4Exam-Style Question - Protein Synthesis

2.6.5End of Topic Test - Coronavirus Translation

2.6.6IB Multiple Choice - Transcription

2.6.7IB Multiple Choice - Translation

2.7Cell Respiration

2.7.1Overview of Respiration

2.7.2Anaerobic Respiration

2.7.3End of Topic Test - Anaerobic Respiration

2.7.4Respiration Experiments

2.7.5End of Topic Test - Respiration

2.7.6IB Multiple Choice - Respiration

2.8Photosynthesis

2.8.1Overview of Photosynthesis

3Genetics

3.1Genes

3.1.1Genes

3.1.2Mutations

3.2Chromosomes

3.2.1Chromosomal Theory of Inheritance

3.2.2Chromosomal Basis of Inherited Disorders

3.2.3IB Multiple Choice - Chromosomal Inheritance

3.3Meiosis

3.3.1Meiosis

3.3.2Mitosis vs Meiosis

3.3.3Meiosis & Genetic Diversity

3.3.4End of Topic Quiz - Meiosis

3.3.5IB Multiple Choice - Meiosis

3.4Inheritance

3.4.1Key Terms

3.4.2Mendelian Genetics & Common Ancestry

3.4.3Mendelian Laws

3.4.4Monohybrid Crosses & Law of Segregation

3.4.5Introduction to Non-Mendelian Inheritance

3.4.6Codominance

3.4.7Multiple Alleles

3.5Genetic Modification & Biotechnology

3.5.1DNA Technology

3.5.2PCR & Gel Electrophoresis

3.5.3Genetic Modification

3.5.4Cloning

4Ecology

4.1Species, Communities & Ecosytems

4.1.1Population Dynamics

4.1.2Communities & Measuring Diversity

4.1.3Relationships Between Populations

4.1.4Overview of Ecosystems

4.1.5Nutrient Cycles

4.1.6Fertilisers

4.1.7Eutrophication

4.1.8Chi-Squared Test

4.2Energy Flow

4.2.1Energy

4.2.2Energy Flow

4.2.3Biomass & Food Chains

4.2.4Heterotrophs & Autotrophs

4.3Carbon Cycle

4.3.1Carbon Cycle

4.4Climate Change

4.4.1Carbon Dioxide

4.4.2The Greenhouse Effect

4.4.3Global Warming

4.4.4Maintaining Biodiversity

5Evolution & Biodiversity

5.1Evidence for Evolution

5.1.1Evidence for Evolution - Fossils & DNA

5.1.2Evidence for Evolution - Anatomy & Geography

5.1.3IB Multiple Choice - Evidence for Evolution

5.1.4Extended Response - DNA & Evolution

5.2Natural Selection

5.2.1Introduction

5.2.2Evolutionary Fitness

5.2.3Natural Selection & Variation

5.2.4End of Topic Quiz - Natural Selection

5.2.5IB Multiple Choice - Natural Selection

5.2.6Speciation

5.3Classification of Biodiversity

5.3.1Introduction to Biodiversity

5.3.2Keystone Species

5.3.3Courtship & Ancestry

5.3.4Classification

5.4Cladistics

5.4.1Evolutionary Relationships

5.4.2IB Multiple Choice - Species & Taxonomy

6Human Physiology

6.1Digestion & Absorption

6.1.1Overview of Digestion

6.1.2Digestion in Mammals

6.1.3Absorption

6.1.4End of Topic Test - Substance Exchange & Digestion

6.1.5End of Topic Test - Substance Ex & Digestion

6.2The Blood System

6.2.1The Circulatory System

6.2.2The Heart

6.2.3Blood Vessels

6.2.4Cardiovascular Disease

6.3Defence Against Infectious Disease

6.3.1Immune System

6.3.2The Immune Response

6.3.3Antibodies

6.3.4Primary & Secondary Response

6.3.5Vaccines

6.3.6HIV

6.3.7End of Topic Test - Immune System

6.3.8Exam-Style Question - Immune System

6.3.9End of Topic Test - Immune System

6.4Gas Exchange

6.4.1Lung Structure & Alveoli

6.4.2Ventilation

6.4.3Lung Disease

6.4.4Lung Disease Data

6.5Neurons & Synapses

6.5.1Neuron Structure

6.5.2Transmission of an Impulse

6.5.3Speed of Transmission

6.5.4End of Topic Test - Neurones & Action Potentials

6.5.5Synapses

6.5.6Types of Synapse

6.5.7Medical Application

6.5.8End of Topic Test - Synapses

6.5.9End of Topic Test - Nervous Comm&Coord

6.6Hormones, HomeoStasis & Reproduction

6.6.1Overview of Homeostasis

6.6.2Blood Glucose Concentration

6.6.3Controlling Blood Glucose Concentration

6.6.4End of Topic Test - Blood Glucose

6.6.5Type I & Type II Diabetes

6.6.6Human Reproductive Systems

6.6.7Hormonal Control of the Menstrual Cycle

7AHL: Nucleic Acids

7.1DNA Structure & Replication

7.1.1DNA

7.1.2RNA

7.1.3DNA Replication

7.1.4DNA Replication - Summary

7.1.5IB Multiple Choice - DNA Replication

7.2Transcription & Gene Expression

7.2.1Introduction to Transcription & Protein Synthesis

7.2.2Types of RNA

7.2.3Transcription

7.2.4RNA Processing in Eukaryotes

7.2.5IB Multiple Choice - Transcription

7.3Translation

7.3.1Translation

7.3.2Retroviruses

7.3.3Scientific Practices: Coronavirus

7.3.4IB Multiple Choice - Translation

8AHL: Metabolism, Cell Respiration & Photosynthesis

8.1Metabolism

8.1.1Molecules to Metabolism

8.2Cell Respiration

8.2.1Glycolysis

8.2.2Aerobic Respiration

8.3Photosynthesis

8.3.1Light-Dependent Reaction

8.3.2Light-Independent Reaction

8.3.3End of Topic Test - Photosynthesis Reactions

8.3.4Limiting Factors

8.3.5Photosynthesis Experiments

8.3.6End of Topic Test - Photosynthesis

8.3.7End of Topic Test - Photosynthesis

9AHL: Plant Biology

9.1Transport in the Xylem of Plants

9.1.1Structure

9.1.2Cohesion-Tension Theory

9.1.3Investigating Transpiration Rate

9.2Transport in the Phloem of Plants

9.2.1Structure

9.2.2Translocation

9.3Growth in Plants

9.3.1Plant Tropisms

10AHL: Genetics & Evolution

10.1Meiosis

10.1.1Stages of Meiosis

10.2Inheritance

10.2.1Linked Genes

10.2.2Sex-Linked Genes

10.2.3Non-Nuclear Inheritance

10.2.4Chi-Squared Test

10.2.5End of Topic Quiz - Inheritance

10.2.6IB Multiple Choice - Non-Mendelian Genetics

10.2.7Introduction to Non-Mendelian Inheritance

10.2.8Extended Response - Inheritance

10.2.9Grade 4-5 (Scientific Practices) - Inheritance

10.3Gene Pools & Speciation

10.3.1Populations

10.3.2Mutations, Genetic Drift, & Gene Flow

10.3.3Speciation

10.3.4Rate of Speciation

10.3.5Allopatric & Sympatric Speciation

11AHL: Animal Physiology

11.1Antibody Production & Vaccination

11.1.1Immune System

11.1.2The Immune Response

11.1.3Antibodies

11.1.4Primary & Secondary Response

11.1.5Vaccines

11.2Movement

11.2.1Skeletal Muscle

11.2.2Sliding Filament Theory

11.2.3Contraction

11.3The Kidney & Osmoregulation

11.3.1Kidneys & Osmoregulation

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Types of RNA

RNA Processing in Eukaryotes