Syllabus Edition

First teaching 2023

First exams 2025

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Endosymbiotic Theory (HL) (HL IB Biology)

Revision Note

Cara Head

Author

Cara Head

Expertise

Biology

Endosymbiotic Theory

Endosymbiosis

  • Endosymbiosis is where one organism lives within another
  • If the relationship is beneficial to both organisms the engulfed organism is not digested
  • For endosymbiosis to occur one organism must have engulfed the other by the process of endocytosis

Endosymbiotic theory

  • The endosymbiotic theory is used to explain the origin of eukaryotic cells. The evidence provided for this theory comes from the structure of the mitochondria and chloroplasts
  • It is believed that all eukaryotic cells evolved from a common unicellular ancestor that had a nucleus and reproduced sexually
  • Scientists have suggested that these ancestral cells evolved into ancestral heterotrophic and autotrophic cells through the following steps:
  • Heterotrophic cells:
    • To overcome a small surface area:volume ratio, ancestral prokaryote cells developed folds in their membrane. From these infoldings, organelles such as the nucleus and rough endoplasmic reticulum formed
    • A larger anaerobically respiring cell engulfed a smaller aerobically respiring prokaryote (which was not digested)
    • This gave the larger cell a competitive advantage as it had a ready supply of ATP and gradually the cell evolved into the heterotrophic eukaryotes with mitochondria that are present today
  • Autotrophic cells:
    • At some stage in their evolution, the heterotrophic eukaryotic cell engulfed a smaller photosynthetic prokaryote. This cell provided a competitive advantage as it supplied the heterotrophic cell with an alternative source of energy, carbohydrates
    • Over time the photosynthetic prokaryote evolved into chloroplasts and the heterotrophic cells into autotrophic eukaryotic cells

Diagram of endosymbiotic theory and the evolution of eukaryotic cells

The endosymbiotic theory – an explanation for the evolution of eukaryotic cells 1, downloadable IB Biology revision notesthe-endosymbiotic-theory---an-ex

The endosymbiotic theory - an explanation for the evolution of eukaryotic cells

Evidence to support the endosymbiotic theory

  • The evidence to support the endosymbiotic theory arises from the features that the mitochondria and chloroplasts have in common with prokaryotes:
    • Both replicate by binary fission
    • Both contain their own circular, non-membrane bound DNA
    • They both transcribe mRNA from their DNA
    • They both have 70S ribosomes to synthesise their own proteins
    • They both have double membranes

NOS: Factors determining the strength of a theory - A wide range of observations are accounted for by the theory of endosymbiosis

  • The strength of the theory comes from the observations the theory explains and the predictions it supports
  • If new observations do not support a theory, it must either be adjusted or rejected
  • The more observations and data that are predicted by a theory, the stronger the theory is
  • A range of observations are accounted for by the theory of endosymbiosis
    • Membranes: Mitochondria and chloroplasts have their own cell membranes, just like a prokaryotic cell does
    • DNA: Each mitochondrion and chloroplast have their own circular DNA genome, like a bacteria's genome, but much smaller
    • Replication: Mitochondria multiply by pinching in half which is the same process used by bacteria

Exam Tip

Learn how the structure of the mitochondria and chloroplast support the endosymbiotic theory.

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Cara Head

Author: Cara Head

Cara graduated from the University of Exeter in 2005 with a degree in Biological Sciences. She has fifteen years of experience teaching the Sciences at KS3 to KS5, and Psychology at A-Level. Cara has taught in a range of secondary schools across the South West of England before joining the team at SME. Cara is passionate about Biology and creating resources that bring the subject alive and deepen students' understanding