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Gary Ruvkun
American geneticist

Gary Ruvkun

The basics

Quick Facts

Intro
American geneticist
A.K.A.
Gary Bruce Ruvkun
Gender
Male
Place of birth
Berkeley, USA
Age
72 years
Education
Harvard Medical School
University of California, Berkeley
Awards
Albert Lasker Award for Basic Medical Research
(2008)
Benjamin Franklin Medal
(2008)
Wolf Prize in Medicine
(2014)
Gairdner Foundation International Award
(2008)
Louisa Gross Horwitz Prize
(2009)
Gruber Prize in Genetics
(2014)
March of Dimes Prize in Developmental Biology
(2016)
Massry Prize
(2009)
Rosenstiel Award
(2004)
Breakthrough Prize in Life Sciences
(2015)
Longevity Prize
(2013)
The details (from wikipedia)

Biography

Gary Bruce Ruvkun (born 26 March 1952, Berkeley, California) isan American molecular biologist at Massachusetts General Hospital and professor of genetics at Harvard Medical School in Boston.Ruvkun discovered the mechanism by which lin-4, the first microRNA (miRNA) discovered by Victor Ambros, regulates the translation of target messenger RNAs via imperfect base-pairing to those targets, and discovered the second miRNA, let-7, and that it is conserved across animal phylogeny, including in humans. These miRNA discoveries revealed a new world of RNA regulation at an unprecedented small size scale, and the mechanism of that regulation.Ruvkun also discovered many features of insulin-like signaling in the regulation of aging and metabolism. He was elected a Member of the American Philosophical Society in 2019.

Education

Ruvkun obtained his undergraduate degree in 1973 at the University of California, Berkeley. His PhD work was done at Harvard University in the laboratory of Frederick M. Ausubel, where he investigated bacterial nitrogen fixation genes. Ruvkun completed post-doctoral studies with Robert Horvitz at the Massachusetts Institute of Technology (MIT) and Walter Gilbert of Harvard.

Research

mRNA lin-4

Ruvkun's research revealed that the miRNA lin-4, a 22 nucleotide regulatory RNA discovered in 1992 by Victor Ambros' lab, regulates its target mRNA lin-14 by forming imperfect RNA duplexes to down-regulate translation. The first indication that the key regulatory element of the lin-14 gene recognized by the lin-4 gene product was in the lin-14 3’ untranslated region came from the analysis of lin-14 gain-of-function mutations which showed that they are deletions of conserved elements in the lin-14 3’ untranslated region.Deletion of these elements relieves the normal late stage-specific repression of LIN-14 protein production, and lin-4 is necessary for that repression by the normal lin-14 3' untranslated region.In a key breakthrough, the Ambros lab discovered that lin-4encodes a very small RNA product, defining the 22 nucleotide miRNAs.When Ambros and Ruvkun compared the sequence of the lin-4 miRNA and the lin-14 3’ untranslated region, they discovered that the lin-4 RNA base pairs with conserved bulges and loops to the 3’ untranslated region of thelin-14 target mRNA, and that the lin-14 gain of function mutations delete these lin-4 complementary sites to relieve the normal repression of translation by lin-4.In addition, they showed that the lin-14 3' untranslated region could confer this lin-4-dependent translational repression on unrelated mRNAs by creating chimeric mRNAs that were lin-4-responsive.In 1993, Ruvkun reported in the journal Cell (journal) on the regulation of lin-14 by lin-4. In the same issue of Cell, Victor Ambros described the regulatory product of lin-4 as a small RNAThese papers revealed a new world of RNA regulation at an unprecedented small size scale, and the mechanism of that regulation. Together, this research is now recognized as the first description of microRNAs and the mechanism by which partially base-paired miRNA::mRNA duplexes inhibit translation.

microRNA, let-7

In 2000, the Ruvkun lab reported the identification of second C. elegans microRNA, let-7, which like the first microRNA regulates translation of the target gene, in this case lin-41, via imperfect base pairing to the 3’ untranslated region of that mRNA. This was an indication that miRNA regulation via 3’ UTR complementarity may be a common feature, and that there were likely to be more microRNAs.The generality of microRNA regulation to other animals was established by the Ruvkun lab later in 2000,when they reported that the sequence and regulation of the let-7 microRNA is conserved across animal phylogeny, including in humans.Presently thousands of miRNAs have been discovered, pointing to a world of gene regulation at this size regime.

miRNAs and siRNAs

When siRNAs of the same 21-22 nucleotide size as lin-4 and let-7 were discovered in 1999 by Hamilton and Baulcombe in plants, the fields of RNAi and miRNAs suddenly converged. It seemed likely that the similarly sizedmiRNAs and siRNAs would use similar mechanisms. In a collaborative effort, the Mello and Ruvkun labs showed that the first known components of RNA interference and their paralogs, Dicer and the PIWI proteins, are used by both miRNAs and siRNAs. Ruvkun's lab in 2003 identified many more miRNAs, identified miRNAs from mammalian neurons, and in 2007 discovered many new protein-cofactors for miRNA function.

C. elegans metabolism and longevity

Ruvkun's laboratory has also discovered that an insulin-like signaling pathway controls C. elegans metabolism and longevity.KlassJohnsonand Kenyonshowed that the developmental arrest program mediated by mutations in age-1 and daf-2 increase C. elegans longevity.The Ruvkun lab established that these genes constitute an insulin like receptor and a downstream phosphatidylinositol kinase that couple to the daf-16 gene product, a highly conserved Forkhead transcription factor.Homologues of these genes have now been implicated in regulation of human aging.These findings are also important for diabetes, since the mammalian orthologs of daf-16 (referred to as FOXO transcription factors) are also regulated by insulin. The Ruvkun lab has used full genome RNAi libraries to discover a comprehensive set of genes that regulate aging and metabolism. Many of these genes are broadly conserved in animal phylogeny and are likely to reveal the neuroendocrine system that assesses and regulates energy stores and assigns metabolic pathways based on that status.Recently, the Ruvkun lab discovered a deep connection between longevity and small RNA pathways, with the production of germline specific small RNA factors induced in somatic cells in long lived mutant animals.

Search for divergent microbes

The Ruvkun lab in collaboration with Maria Zuber at MIT and Michael Finney, George Church, Steve Quake, and Walter Gilbert is also developing protocols and instruments that use PCR primers corresponding to universal sequence elements of the 16S RNA gene to search for divergent microbes. One long-term goal of this project is to send a robotic thermal cycler with these primers to Mars in search of microbial life that is ancestrally related to life on Earth.Closer to home, these protocols may reveal microbes that may cause diseases unsuspected to be due to pathogens and microbes from extreme environments.

Innate immune surveillance

In 2012, Ruvkun made an original contribution to the field of immunology with the publication of a featured paper in the journal Cell describing an elegant mechanism for innate immune surveillance in animals that relies on the monitoring of core cellular functions in the host, which are often sabotaged by microbial toxins during the course of infection.

Search for extra-terrestrial life

In 2019, Ruvkun, together with Chris Carr, Mike Finney and Maria Zuber, is working to have NASA send a DNA sequencer to Mars to search for life there in the hope that evidence will be uncovered that life did not arise originally on Earth, but elsewhere in the universe.

Published articles and recognition

As of 2018, Ruvkun has published about 150 scientific articles. Ruvkun has received numerous awards for his contributions to medical science, for his contributions to the aging field and to the discovery of microRNAs. He is a recipient of the Lasker Award for Basic Medical Research, the Gairdner Foundation International Award, and the Benjamin Franklin Medal in Life Science. Ruvkun was elected as a member of the National Academy of Sciences in 2008.

Awards

  • 2005 Lewis S. Rosenstiel Award for Distinguished Work in Medical Research of Brandeis University(co-recipient (with Craig Mello, Andrew Fire and Victor Ambros)
  • 2007 Warren Triennial Prize, Massachusetts General Hospital (co-recipient with Victor Ambros)
  • 2008 Gairdner Foundation International Award (co-recipient (with Victor Ambros)
  • 2008 2008 Benjamin Franklin Medal in Life Science(co-recipient with Victor Ambros and David Baulcombe)
  • 2008 Lasker Foundation Award for Basic Medical Research (co-recipient with Victor Ambros and David Baulcombe)
  • 2008National Academy of Sciences
  • 2009Louisa Gross Horwitz Prize, Columbia University(co-recipient with Victor Ambros)
  • 2009American Academy of Arts and Sciences
  • 2009Massry Prize from the Keck School of Medicine, University of Southern California (co-recipient with Victor Ambros)
  • 2009Institute of Medicine
  • 2011 The International Dan David Prize, awarded by Tel Aviv University, Israel (co-recipient with Cynthia Kenyon)
  • 2012 Dr. Paul Janssen Award for Biomedical Research with Victor Ambros
  • 2014 Wolf Prize for Medicine (co-recipient with Victor Ambros)
  • 2015 Breakthrough Prize in Life Sciences (co-recipient with C. David Allis, Victor Ambros, Alim Louis Benabid, Jennifer A. Doudna and Emmanuelle Charpentier).
  • 2016 March of Dimes Prize in Developmental Biology (co-recipient with Victor Ambros)
The contents of this page are sourced from Wikipedia article. The contents are available under the CC BY-SA 4.0 license.
Frequently Asked Questions
FAQ
Who is Gary Ruvkun?
Gary Ruvkun is an American biologist and molecular geneticist. He is currently a professor at Harvard Medical School and Massachusetts General Hospital.
What are Gary Ruvkun's notable contributions to science?
Gary Ruvkun is best known for his groundbreaking work in the field of RNA interference (RNAi). He played a key role in discovering the mechanism and biological functions of RNAi, which has revolutionized our understanding of gene regulation and has important implications in various areas of biology and medicine.
Has Gary Ruvkun received any awards or honors for his work?
Yes, Gary Ruvkun has received numerous awards and honors for his contributions to science. Some of the notable awards he has received include the Albert Lasker Award for Basic Medical Research, the Gairdner Foundation International Award, and the Breakthrough Prize in Life Sciences.
What is Gary Ruvkun's current research focus?
Gary Ruvkun's current research focuses on understanding the molecular mechanisms involved in aging and longevity. He is particularly interested in the role of small RNAs and RNAi pathways in regulating aging processes and lifespan.
Has Gary Ruvkun made any significant discoveries related to aging and longevity?
Yes, Gary Ruvkun and his research team have made significant discoveries in the field of aging and longevity. Their studies have identified several molecular pathways and genetic factors that influence lifespan in model organisms. Their research provides important insights into the fundamental mechanisms of aging and has potential implications for developing interventions to promote healthy aging in humans.
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