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Printable Handouts
Navigable Slide Index
- Introduction
- Historical origins
- The germ plasm: a theory of heredity
- The selfish gene - Richard Dawkins
- Transposons: selfish DNA elements
- Transposons located throughout genome
- Rapid spread of transposons
- Transposon numbers reach steady-state over time
- Many transposons are related to viruses
- Ancient mechanisms to repress selfish elements
- Defining the RNAi mechanism
- RNA double helix synthesis
- DNA vs. RNA double helix
- Transposon and virus replication
- Argonaute/Piwi proteins bind to dsRNA
- Argonaute proteins bind to dsRNA
- Argonaute proteins bind to ssRNA
- Argonaute cycle (1)
- Ago2 inhibits transposon & virus in Drosophila
- RNAi required for anti-viral innate immunity
- PIWI proteins
- Transposons inhibited by Piwi in germ cells
- Argonaute cycle (2)
- Ago2 cleaves target RNA
- DNA packaging
- The mechanism in yeast
- The mechanism in Drosophila
- Argonaute silencing
- RNAi silencing genes in C. elegans
- RNAi silencing genes in Drosophila
- RNAi silencing genes in mammalian cells
- RNAi in biomedical research
- RNAi in agriculture
- RNAi in human medicine
- How are dsRNA targets formed
- Dicer cleaves double-helical RNA
- Dicer & loquacious complex activity
- RNA dicing activity in extracts of Drosophila
- The siRNA pathway
- Loquacious is not needed for dicing virus RNA
- Viral repressor of RNAi proteins
- Flock house virus B2 protein
- Rate of change of siRNA pathway proteins
- Silencing & membrane trafficking interactions
- System to keep selfish genes in check
- Adaptation of RNAi for gene regulation
- miRNAs
- Animal miRNAs imperfectly base-pair to mRNAs
- MicroRNAs stimulate germ stem cell division
- miRNAs are fast evolving
- Variations of animals and plants
- Conclusions
Topics Covered
- Introduction to selfish genetic elements
- RNAi as a mechanism to defend against selfish gene replication
- The Argonaute cycle of RNA binding
- RNAi represses both viruses and transposable elements
- Post-transcriptional cleavage of mRNAs
- Applications of RNAi
- Dicer and its cofactors process and load RNA into Argonaute
- Distinct Dicer mechanisms for viral and transposon RNA
- Virus counter-measures to Dicer
- mRNAs evolved as gene regulators from RNAi
Talk Citation
Carthew, R. (2017, September 28). RNA interference functions and mechanisms in animals [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 26, 2024, from https://doi.org/10.69645/MDER7607.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. Richard Carthew has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
A selection of talks on Cell Biology
Transcript
Please wait while the transcript is being prepared...
0:00
This is Professor Richard Carthew from
Northwestern University in Evanston, Illinois United States.
And today I'm going to be talking about RNA Interference or
RNAi and its functions and mechanisms in animals.
0:16
To understand why RNA Interference or RNAi exists,
it's worth revisiting two classic books from the 19th century.
One that you are no doubt familiar with and one that you may not be so familiar with.
Darwin's Theory of Evolution assumed that features central to survival could be inherited.
Of course, we now know these are our genes.
0:40
August Weismann proposed a different theory, though equally revolutionary.
An organism is composed of germ cells that pass
all genetic determinants unaltered to the next generation.
The rest of the body's cells merely accommodate the germ cells.
Or as Samuel Butler said it,
"A hen is only an eggs way of making another egg".
1:04
50 years ago, Richard Dawkins modified this theory to state that
the reproductive successive genes should be equal to the organism itself.
All genes should copy together in lockstep with the organism.
If a gene's reproduction is faster than that of the organism,
then it would out compete other genes that reproduce with the organism.
Are there such cheating genes?
1:29
The answer is yes.
There are cheating genes that reproduce by
horizontal transmission such as viruses infecting different individuals,
and there are genes that reproduce by
vertical transmission through the germline and creation of new organisms.
These are called transposable elements.
They are integrated into the genome and they reproduce faster than the organism by
replication and insertion of new copies into new sites within the genome.