Victor Ambros

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Victor R. Ambros
Born (1953-12-01) December 1, 1953 (age 70)
Alma materMassachusetts Institute of Technology (B.S., 1975) (Ph.D., 1979)
Known fordiscovery of the first known microRNA
Scientific career
FieldsBiology
InstitutionsM.I.T. Center for Cancer Research (1975–1976)
Massachusetts Institute of Technology (1976–1979)
Harvard University(1985–1992)
Dartmouth College(1992–2001)
Dartmouth Medical School (2001–2007)
University of Massachusetts Medical School (2008–)

Victor R. Ambros (born 1953, Hanover, New Hampshire) is an American developmental biologist who discovered the first known microRNA (miRNA). He is a professor at the University of Massachusetts Medical School in Worcester, Massachusetts.

Background[edit]

Ambros was born in New Hampshire. His father was a Polish war refugee and Victor grew up on a small dairy farm in Hartland, Vermont in a family of eight children, and went to school at Woodstock Union High School.[1] He received his BS in Biology from the Massachusetts Institute of Technology in 1975 and completed his PhD in 1979 at the Massachusetts Institute of Technology, under the supervision of Nobel laureate David Baltimore. Ambros continued his research at MIT as the first postdoctoral fellow in the lab of future Nobel laureate H. Robert Horvitz. He became a faculty member at Harvard University in 1984 and moved to Dartmouth College in 1992. Ambros joined the faculty at the University of Massachusetts Medical School in 2008, and currently holds the title of Silverman Professor of Natural Sciences in the program in Molecular Medicine, endowed by his former Dartmouth student, Howard Scott Silverman.

Discovery of microRNA[edit]

In 1993, Ambros and his co-workers Rosalind Lee and Rhonda Feinbaum reported in the journal Cell[2] that they had discovered single-stranded non-protein-coding regulatory RNA molecules in the organism C. elegans. Previous research, including work by Ambros and Horvitz,[3][4] had revealed that a gene known as lin-4 was important for normal larval development of C. elegans, a nematode often studied as a model organism. Specifically, lin-4 was responsible for the progressive repression of the protein LIN-14 during larval development of the worm; mutant worms deficient in lin-4 function had persistently high levels of LIN-14 and displayed developmental timing defects. However, the mechanism for control of LIN-14 remained unknown.

Ambros and colleagues found that lin-4, unexpectedly, did not encode a regulatory protein. Instead, it gave rise to some small RNA molecules, 22 and 61 nucleotides in length, which Ambros called lin-4S (short) and lin-4L (long). Sequence analysis showed that lin-4S was part of lin-4L: lin-4L was predicted to form a stem-loop structure, with lin-4S contained in one of the arms, the 5' arm. Furthermore, Ambros, together with Gary Ruvkun (Harvard), discovered that lin-4S was partially complementary to several sequences in the 3' untranslated region of the messenger RNA encoding the LIN-14 protein.[5] Ambros and colleagues hypothesized that lin-4 could regulate LIN-14 through binding of lin-4S to these sequences in the lin-14 transcript in a type of antisense RNA mechanism.

In 2000, another C. elegans small RNA regulatory molecule, let-7, was characterized by the Ruvkun lab [6] and found to be conserved in many species, including vertebrates.[7] These discoveries confirmed that Ambros had in fact discovered a class of small RNAs with conserved functions. These molecules are now known as microRNA. Ambros was elected to the United States National Academy of Sciences in 2007. He was elected a Fellow of the American Academy of Arts and Sciences in 2011.

Awards[edit]

References[edit]

  1. ^ Gitschier, Jane (2010-03-05). "In the Tradition of Science: An Interview with Victor Ambros". PLOS Genetics. 6 (3): e1000853. doi:10.1371/journal.pgen.1000853. ISSN 1553-7404. PMC 2832673. PMID 20221254.
  2. ^ Lee, R. C.; Feinbaum, R. L.; Ambros, V. (1993). "The C. Elegans heterochronic gene lin-4 encodes small RNAs with antisense complementarity to lin-14". Cell. 75 (5): 843–854. doi:10.1016/0092-8674(93)90529-Y. PMID 8252621.
  3. ^ Chalfie, M.; Horvitz, H. R.; Sulston, J. E. (1981). "Mutations that lead to reiterations in the cell lineages of C. Elegans". Cell. 24 (1): 59–69. doi:10.1016/0092-8674(81)90501-8. PMID 7237544. S2CID 33933388.
  4. ^ Ambros, V. (1989). "A hierarchy of regulatory genes controls a larva-to-adult developmental switch in C. Elegans". Cell. 57 (1): 49–57. doi:10.1016/0092-8674(89)90171-2. PMID 2702689. S2CID 13103224.
  5. ^ Wightman, B.; Ha, I.; Ruvkun, G. (1993). "Posttranscriptional regulation of the heterochronic gene lin-14 by lin-4 mediates temporal pattern formation in C. Elegans". Cell. 75 (5): 855–862. doi:10.1016/0092-8674(93)90530-4. PMID 8252622.
  6. ^ Reinhart, B. J.; Slack, F. J.; Basson, M.; Pasquinelli, A. E.; Bettinger, J. C.; Rougvie, A. E.; Horvitz, H. R.; Ruvkun, G. (2000). "The 21-nucleotide let-7 RNA regulates developmental timing in Caenorhabditis elegans". Nature. 403 (6772): 901–906. Bibcode:2000Natur.403..901R. doi:10.1038/35002607. PMID 10706289. S2CID 4384503.
  7. ^ Pasquinelli, A. E.; Reinhart, B. J.; Slack, F.; Martindale, M. Q.; Kuroda, M. I.; Maller, B.; Hayward, D. C.; Ball, E. E.; Degnan, B.; Müller, B.; Spring, P.; Srinivasan, J. R.; Fishman, A.; Finnerty, M.; Corbo, J.; Levine, J.; Leahy, M.; Davidson, P.; Ruvkun, E. (2000). "Conservation of the sequence and temporal expression of let-7 heterochronic regulatory RNA". Nature. 408 (6808): 86–89. Bibcode:2000Natur.408...86P. doi:10.1038/35040556. PMID 11081512. S2CID 4401732.
  8. ^ "Newcomb Cleveland Prize Recipients". AAAS – The World's Largest General Scientific Society. 2013-07-05. Retrieved 2018-03-23.
  9. ^ Fessenden, Jim (10 November 2014). "Victor Ambros awarded 2015 $3M Breakthrough Prize for co-discovery of microRNAs". UMass med NOW. University of Massachusetts Medical School. Retrieved 6 September 2015.
  10. ^ "Victor Ambros awarded 2016 March of Dimes prize for co-discovery of MicroRNAs". University of Massachusetts Medical School. 3 May 2016. Retrieved 9 September 2016.