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Printable Handouts
Navigable Slide Index
- Introduction
- Identical twins arise from same zygote
- Identical twins & levels of disease concordance
- Epigenetics
- All mammalian cell types have one genome
- Epigenetics and stem cell biology
- Mechanisms of inheritable epigenetics
- Two main components to the epigenetic code
- DNA methylation patterns established
- Maintenance of CG methylation during replication
- Genome & DNA methylation during development
- Methylation patterns erased by replication
- Two main components to the epigenetic code
- DNA methylation and histone methylation
- Genomic imprinting
- Imprinted genes regulation
- ICRs escape DNA methylation reprogramming
- ICRs & imprints the male and female
- Developmental Origins of Health and Disease
- Pregnant exposure & multiple generations
- Dutch hunger winter
- Body Mass Index at 18 years
- In Vitro Fertilization
- IVF & imprinting disorders
- IVF technology
- Studying effects of ART using the mouse model
- ART & epigenetically reprogramming
- Procedures in IVF & adverse procedures?
- Placenta morphology worsens with ART
- Imprinting control regions regulate imprinting
- Conclusions
- Thank you!
Topics Covered
- Definition of epigenetics
- Epigenetics and stem cell biology
- Mechanisms of inheritable epigenetics
- Examples of the epigenetic code
- Genomic imprinting
- Imprinting as a paradigm for epigenetic gene regulation and inheritance
- Developmental Origins of Health and Disease (DOHaD) definition
- Dutch hunger winter as an example of DOHaD
- IVF as a potential example of DOHaD
- IVF technology and imprinting disorders
Links
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Talk Citation
Bartolomei, M. (2019, April 30). Epigenetics and inheritance [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 22, 2024, from https://doi.org/10.69645/SEOR9391.Export Citation (RIS)
Publication History
Financial Disclosures
- Professor Marisa Bartolomei has no commercial/financial relationships to disclose
Other Talks in the Series: The Female Reproductive System: from Basic Science to Fertility Treatments
Transcript
Please wait while the transcript is being prepared...
0:00
Hello, my name is Marisa Bartolomei.
I'm a professor at the University of Pennsylvania School of Medicine,
in Philadelphia, Pennsylvania in the United States.
This lecture covers the topics of Epigenetics and Inheritance.
First, we will describe the evidence for the phenomenon of epigenetics,
then define it, and briefly summarize epigenetic mechanisms.
Next, we will cover the epigenetic phenomenon of genomic imprinting, and finally,
we will discuss how environmental perturbations in
early life can result in disease later in life.
0:38
Identical, or monozygotic twins are derived from the same fertilization event, or zygote.
They have identical DNA,
but it is well-known that although they may be indistinguishable by sight,
they have variable susceptibilities for disease.
The next slide shows the disease susceptibility of
a variety of common diseases in monozygotic twins.
1:01
This slide illustrates the age at disease onset on
the x-axis and concordance rates of monozygotic twins on the y-axis.
The left and right margins of each shape represent the range of age at
onset and the upper and lower margins represent the
lowest and greatest concordance rates of each disease.
The data are taken from at least two independent twin studies.
Cleft lip and palate
occurs during embryogenesis and therefore, it is placed to the left of this graph.
As you can see,
there is an early age of onset and a high degree
of concordance for autism in monozygotic twins.
In contrast, breast cancer has a much lower degree of concordance,
suggesting an environmental component.
This environmental component is considered epigenetics,
which is defined in the next slide.