Summary Part 1 -- Lecture 7 Model Organisms Development

Evolutionary Development – Lecture 7 – Model organisms in
evolutionary development biology
Importance of models
 Study of mammalian embryology is difficult due to placentation
 Use of vertebrate animal experiment should be limited for ethical reasons
 Principles of developmental biology hold equally well for invertebrates and
vertebrates
 Comparative embryology shed light on alterations of developmental pathways
underlying evolutionary change

Body plan of animal
General organization according to anterior/ventral-posterior/dorsal axis
Symmetry of the body, subdivision, sense organs, appendages (aanhangsels)
Relative position and organization of the main biological systems

Zygote contains all information on adult body plan – body plans enroll step by step
throughout development (cleavages, proliferation, apoptosis, cell migration etc.)

Large variability in body plans

Despite the variability in body plans there is:
 A limited number of organizational principles
 A limited number of molecular tools
This allows:
 Reconstruction of evolutionary patterns
 Extrapolation (uitbereiden) across species

The 6 model organisms
Invertebrates: C. elegans and Drosophilia
Vertebrates: Mouse, Chicken, Xenopus, Zebrafish

C. elegans (roundworm): phylum -- nematode
 One of two first organisms whose entire genome was sequenced
 Easy to grow
 Genetically manipulated
 Short generation time
 Produce many offspring
 Free living non-parastic nematode
 1,5 mm by 80 um
 959 cells
 ±20.000 genes
 Hermaphroditic; they are male and female (First male
and then becomes female) (Male during larval stage 4.
In adult stage female use sperm from L4 to fertilize eggs)
 Essential biological functions shared with human:
development, behaviour, neurobiology, aging
 40% of protein-coding genes of C.elegans have
homologous gene in human being
o Model for Parkinson’s disease: