Please join us for seminar #5 in the ‘Healthy Futures’ seminar series hosted by the Deakin Science and Society Network (SSN). You can join the conversation on Twitter by following us at @SSNDeakin and using the hashtags #SSNseminar #HealthyFutures.
In C.elegans nematodes, small RNAs enable transmission of epigenetic responses across multiple generations, independently of changes to the DNA sequence. Different environmental challenges, including exposure to viruses, starvation, and heat stress generate heritable small RNA responses, that in certain cases could be adaptive. Recently we have shown that neuronal activity can also produce small RNA-mediate heritable responses, and that the decisions that the progeny makes, depends on whether their ancestors experienced stress or not. The precise duration of small RNA-mediated transgenerational responses is governed by a number of feedback interactions, that together establish a “timer” mechanism, and segregation of the epigenetic response between the descendant obeys a few simple inheritance rules. In the talk I will present new insights into the rules that dictate which small RNA responses would become heritable, and which wouldn’t. Our results indicate that specific processing of endo-siRNAs in the parents leads to marked differences in the physiology of the progeny. I will discuss the underlying mechanisms, and the potential of small RNA inheritance to affect the worm’s fate and perhaps even evolution, and the relevance of studies in worms to mammals, and in particular humans.
About the speaker
Oded Rechavi is a Full Professor in the Life Sciences Faculty at Tel Aviv University. His mission is “to challenge fundamental long-held scientific dogmas”. Using C. elegans nematodes he provided direct evidence that an acquired trait can be inherited, worked to elucidate the mechanism and rules of small RNA-mediated transgenerational inheritance, discovered that the nematodes’ brains can control the behavior of their progeny, and identified a simple neuronal circuit-level mechanism that explains economic irrationality. Aside from his work on nematodes, Oded utilized genome sequencing of ancient DNA to “piece together” fragments of the Dead Sea Scrolls and demonstrated that Toxoplasma parasites can be genetically engineered to deliver drugs to the nervous system. He is an ERC Fellow, and was awarded many prestigious prizes, including the Polymath prize (Schmidt Futures), the Kadar award, the Blavatnik award, the Krill Wolf award, the Alon, and F.I.R.S.T (Bikura) Prizes, and the Gross Lipper Fellowship. Prof. Rechavi was selected as one of the “10 Most Creative People in Israel Under 40”, and one of the “40 Most Promising People in Israel Under 40”.
Watch the seminar
Seminar will be available to stream on YouTube live. Access using the live link: https://youtu.be/AWsgrn-GBDU
Date/time: Tuesday April 20, 3pm – 4:30pm (Australian Eastern Daylight Time, GMT+11)
Q&A with the speaker to follow. To send questions/participate in the chat, you’ll need to sign-in using a YouTube account.
The seminar will be recorded and available to watch on the SSN YouTube channel after the Livestream.
If you have any questions, please send to firstname.lastname@example.org.