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Printable Handouts
Navigable Slide Index
- Introduction
- Human fertilized egg and embryo
- Developmental biology (1)
- Why study developmental biology?
- Developmental biology (2)
- Model organisms in the developmental biology landscape
- Discovery of the organizer
- Twinned tadpole produced by organizer transplant
- Fruit fly mutants and identification of genes controlling the body plan
- Genes link developmental biology and clinical genetics
- The mouse as a genetic model for development
- Stem cells
- New opportunities from genomics – 2000s
- Human life cycle
- Transcription and translation
- Repertoire of cell activities which turn genotype into phenotype
- Developmental processes in which cell activity is involved
- Growth of the human embryo and foetus
- Tredern’s drawings of developing chick legs (1808)
- Computer simulation of bending a cell sheet due to cells changing shape
- Cell migration during gastrulation in chick embryos
- Cell differentiation is like playing a jukebox
- Differential gene expression
- Nuclei of differentiated cells can support development
- Cellular reprogramming
- Pattern formation
- Wolpert’s French flag model
- Chick wing development
- Cell-cell interactions in the chick wing bud
- Discovery of the polarizing region in the chick wing bud
- Morphogen gradient model for the chick wing bud
- Universality of polarizing region morphogen
- Sonic hedgehog is the polarizing region morphogen
- Sonic hedgehog is required for development of digits in mouse limbs
- Digits 4 and 5 of mouse limb come from the polarizing region
- Comparison of digit pattern formation in chick wing and mouse limb
- Self-organization of a digit prepattern
- A cis-regulatory DNA sequence controls expression of the Shh gene in the limb
- Sasquatch mouse mutant with additional digits in the limbs
- Mutations in Shh limb regulatory sequence in human patients and domestic animals
- Mutations in Shh limb regulatory sequence in snakes
- Effects of the teratogen thalidomide on the limb
- Future directions
- Acknowledgements
Topics Covered
- Overview of development biology and its history
- Model organisms in the developmental biology landscape
- Identification of genes in model organisms controlling the body plan
- Developmental biology and clinical genetics
- Human developmental genetics and cellular processes
- Differential gene expression and pattern formation
- Morphogens and the polarizing region in limb development
- Environmental agents that affect limb development
Talk Citation
Tickle, C. (2019, November 28). Developmental biology [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 26, 2024, from https://doi.org/10.69645/VAUB8422.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. Cheryll Tickle is one of the authors of the 6th edition of “Principles of Development” from which the diagrams in many of the slides were taken (see acknowledgements on website or list slide numbers 2,7,9,11,12,14,15,18,20,24,27,37,41,42).
A selection of talks on Gynaecology & Obstetrics
Transcript
Please wait while the transcript is being prepared...
0:00
Hello, I am Cheryll Tickle, an Emeritus professor at
the University of Bath and this lecture introduces developmental biology.
0:12
Developmental biology is the study of how
a single cell, the fertilized egg, gives rise to a new organism.
This is surely one of the most inspiring processes in
biology and has fascinated scientists since ancient times.
In just over seven weeks,
a fertilized human egg, shown here on the left,
gives rise to an embryo with many recognizable features.
For example, the head with the eye can clearly be seen as can the arms and the legs.
0:45
Developmental biology, while focusing on embryonic development,
also covers events that occur after birth,
postnatally, such as growth and aging.
Developmental mechanisms are also involved in regeneration,
which is the ability of an adult organism to replace missing parts.
As development is fundamental to evolution,
evolutionary developmental biology, sometimes called
evo-devo is a very active area of research.
1:21
Why study developmental biology?
Well, first of all, it is an intrinsically interesting topic in its own right.
In addition, knowledge about
developmental mechanisms has applications in medicine and agriculture.
With regard to medical applications,
we would like to understand why development sometimes goes wrong.
Perhaps, less obviously, developmental biology can
also help our understanding of diseases such as cancer.
This is because cancer employs
the same cellular mechanisms as development and even the same molecules.
Another clinical area in which developmental biology
is having an increasing impact is in regenerative medicine.
If we understand how cells and tissues are used to build organs in the embryo,
this could suggest new approaches to repair and
replacement of damaged or diseased tissues.