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Printable Handouts
Navigable Slide Index
- Inheritance by cytoplasmic continuity
- Several ways to pass information to daughter cells
- Struct. inheritance: WT/"twisty" phenotype
- Struct. inheritance: the "twisty" phenotype
- Struct. inheritance: prion
- Struct. inheritance: mitoch. chaperonin hsp60
- In-vivo assembly of WT hsp60 subunits
- In-vitro assembly of WT hsp60 subunits
- Struct. inheritance: mitoch. membrane inheritance
- Take home message
- Regulatory inheritance, the early days (1)
- Regulatory inheritance, the early days (2)
- Statement by Dr. Nanney, 1958
- The two basic units of the regulatory inheritance
- Cellular cybernetics
- Natural systems
- Vacuolar hydrolases activation in yeast (1)
- Vacuolar hydrolases activation in yeast (2)
- Cytoduction experiments
- Over expression of PRB experiment
- The cytoplasmic and infectious [beta] is a prion
- Secteur-like phenomena in filamentous fungi
- The basic life cycle of a filamentous fungus
- The mycelium structure
- The development of Secteurs
- The Secteur in Nectria haematococca
- A two-gene locus is necessary for the Secteur
- Two models
- CG degeneration in Podospora anserina
- CG caused by C, cytoplasmic and infectious factor
- A system with tamed bistability
- Identification of genes necessary for CG
- MAPK cascade implicated in the production of C
- MAPK cascade and cellular memory
- The active state of the MAPK
- Take home message
- Conclusions
Topics Covered
- Description in microbes of heritable phenomena not based on nucleic acids
- fundamental importance of these phenomena in fully understanding inheritance
- transmittance through cellular continuity
- molecular mechanisms
- template assisted folding of macromolecular structures
- self-perpetuating metabolic circuitry
Talk Citation
Silar, P. and Malagnac, F. (2016, February 12). Cytoplasmic epigenetics: inheritance by cytoplasmic continuity [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 27, 2024, from https://doi.org/10.69645/ISAX3722.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. Philippe Silar has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
- Dr. Fabienne Malagnac has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
A selection of talks on Genetics & Epigenetics
Transcript
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0:00
Phillipe Silar and Fabienne Malagnac of University of Paris 7
will present a talk on cytoplasmic epigenetic,
and will mostly focus on inheritance by cytoplasmic continuity.
0:13
It was demonstrated about 50 years ago,
that DNA is the major carrier of information
that pass from mother to daughter cells.
This DNA-based information accounts for the classical Mendelian inheritance,
but also for the cytoplasmic inheritance brought about by DNA
contained within mitochondria and plasmids,
but also by viruses and other infectious factors present within the cytoplasms.
However, at about the same time,
several examples of non-DNA based inheritance were postulated and later on discovered.
Two broad classes of such phenomena were made:
structural inheritance, whereby your preexisting structure
is necessary for the correct folding of a newly formed one
and regulatory inheritance in which the state of a metabolic or regulatory network,
directs the status of the same network in the daughter cells.
The hallmarks of this inheritance
are that the characters are frequently unstable,
and may switch spontaneously and with high frequency
between several so-called states,
and that this inheritance is achieved by cellular continuity.
This means that when extracted from the cell,
this information loses its coding capacity.
As we shall see,
these are general properties of this phenomena,
but may not be fulfilled in all cases.
1:33
We will now explore several examples of structural inheritance.
We shall first start with cortical inheritance in paramecium,
which was the first example of such phenomenon
and was described in 1965 by Beisson and Sonneborn.
Wild-type paramecium exhibit the characteristic swimming behavior.
Beisson and Sonneborn describe a twisty mutant,
with an exaggerated twisty swimming behavior,
that can easily be seen under the binocular.
They could trace back the abnormal swimming back to the structure of the cilia.
In wild-type paramecium, cilia are arranged in rows
and can be in a mutant form to some structure at the birth of the cilium,
here depicted in red.
They showed that this twisty mutant exhibited
some inverted rows of cilia which would not beat in the correct orientation,
hence the abnormal swimming.
Interestingly, the cilia are not found in a row
but are precisely inserted and oriented
with respect to pre-existent cilias.
In wild-type, this ensures correct growth of the cell before division.
In mutant, this permits the abnormal orientation to be copied.
In the long-term, thanks to this property,