Biography:Laura Landweber

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Short description: American evolutionary biologist
Laura Landweber
Alma materPrinceton University A.B., Harvard University Ph.D.
Known forRNA mediated epigenetic control, unusual genome organisation, genome evolution, computational molecular biology, DNA computers
Spouse(s)Steven Gubser[1]
Children3[1]
Awards2001 - Tulip Award for DNA Computing, 2005, Fellow of American Association for the Advancement of Science, 2008. Regional Award Winner Blavatnik Awards for Young Scientists from The New York Academy of Sciences, 2012 - Guggenheim Fellow
Scientific career
Fieldsevolution of genomes, DNA computers, structure and function of unusual genomes in Oxytrichia and other organisms
InstitutionsColumbia University, Princeton University
Thesis"RNA editing and the evolution of mitochondrial DNA in kinetoplastid protozoa." (1993)

Laura Faye Landweber is an American evolutionary biologist. (As of 2016), she is a professor of biochemistry and molecular biophysics and of biological sciences at Columbia University. Previously, she was a professor of ecology and evolutionary biology at Princeton University. She specializes in RNA-mediated epigenetic inheritance and molecular evolution.

Education

Landweber graduated summa cum laude with an A.B. in molecular biology from Princeton University in 1989 after completing a 50-page-long senior thesis titled "A Method for Evolutionary Sequence Analysis of Genes and Pseudogenes Using the Polymerase Chain Reaction: Applications to the Mouse Tcp-1 Gene."[2]

She received her M.A. and Ph.D. from Harvard University in 1991 and 1993, respectively. Her doctoral dissertation is titled "RNA editing and the evolution of mitochondrial DNA in kinetoplastid protozoa."[3]

Research career

In 1994, Landweber became a faculty member of Princeton University at the age of 26.

In a 2000 paper published in the Proceedings of the National Academy of Sciences of the United States of America on biocomputers, Landweber solved chess's knights problem, where one determines how many non-attacking knights can be placed on a chessboard, using a test tube of RNA,[4] a breakthrough in DNA computing.

Laura Landweber has also studied the evolution of the genetic code[5] and the scrambled genomes of ciliates such as Oxytricha.[6] Her laboratory has supported the notion that the code was no accident but arose from affinities between the nucleic acid codons and their cognate amino acids.[5] Her studies of the massive rearrangements of the genome in the micronucleus of Oxytricha showed an unsuspected role for non-coding RNA in directing the process epigenetically.[7]

Publications

  • DNA Based Computers II (1998), Landweber, L. and Baum, E., eds, American Mathematicsl Society
  • Genetics and the Extinction of Species: DNA and the Conservation of Biodiversity (1999), Landweber, L. F. and Dobson, A. P., eds, Princeton University Press
  • Evolution as Computation (2003), Landweber, L. F. and Winfree, E., eds, Springer Verlag[8][3]

Awards and honors

  • 1999 – Sigma Xi Young Investigator Award[9]
  • 2001 - Tulip Award for DNA Computing[10]
  • 2005 - American Association for the Advancement of Science Fellow[11]
  • 2008 - Regional Award Winner, Blavatnik Awards for Young Scientists, The New York Academy of Sciences[12]
  • 2012 - Guggenheim Fellow[13]
  • 2014 - Division R Lecturer, American Society for Microbiology[3]

Personal life

Laura Landweber was married to physicist Steven Gubser[1] and has three daughters.[1][14]

References

  1. 1.0 1.1 1.2 1.3 McClain, Dylan Loeb (September 6, 2019). "Steven Gubser, a Bright Star in the Physics Universe, Dies at 47". The New York Times. https://www.nytimes.com/2019/09/06/science/steven-gubser-dead.html. 
  2. Landweber, Laura Faye (1989). Princeton University. Department of Molecular Biology. ed (in English). A Method for Evolutionary Sequence Analysis of Genes and Pseudogenes Using the Polymerase Chain Reaction: Applications to the Mouse Tcp-1 Gene. http://arks.princeton.edu/ark:/88435/dsp01j9602255j. 
  3. 3.0 3.1 3.2 "Laura Landweber". 19 January 2016. https://www.princeton.edu/~lfl/LandweberCV.pdf. 
  4. Hopkin, Karen (November 1, 2006). "The Fast Track to Success". The Scientist. http://www.the-scientist.com/?articles.view/articleNo/24429/title/The-Fast-Track-to-Success/. 
  5. 5.0 5.1 Knight, Robin D; Landweber, Laura F (June 2000). "The Early Evolution of the Genetic Code". Cell 101 (6): 569–572. doi:10.1016/S0092-8674(00)80866-1. PMID 10892641. 
  6. Landweber, LF (19 October 2007). "Genetics. Why genomes in pieces?". Science 318 (5849): 405–7. doi:10.1126/science.1150280. PMID 17947572. 
  7. Nowacki, M; Vijayan, V; Zhou, Y; Schotanus, K; Doak, TG; Landweber, LF (10 January 2008). "RNA-mediated epigenetic programming of a genome-rearrangement pathway". Nature 451 (7175): 153–8. doi:10.1038/nature06452. PMID 18046331. Bibcode2008Natur.451..153N. 
  8. "The Landweber Lab: Publications". https://www.princeton.edu/~lfl/publications.htm. 
  9. "Laura F. Landweber". Sigma Xi. https://www.sigmaxi.org/programs/prizes-awards/william-procter/award-winner/laura-f.-landweber. Retrieved 27 November 2015. 
  10. "List of Award Winners". http://www.dna-computing.org/award.html. 
  11. "AAAS Fellows". https://www.aaas.org/content/landweber-laura. 
  12. "Laura Landweber". http://blavatnikawards.org/honorees/profile/laura-landweber/. 
  13. "Laura Landweber". http://www.gf.org/fellows/all-fellows/laura-landweber/. 
  14. Jeffries, Abigail (2008). "Ingenious, Innovative, and Interdisciplinary!". The New York Academy of Sciences Magazine (2, Autumn 2008): 11–18. https://www.nyas.org/magazines/autumn-2008/ingenious-innovative-and-interdisciplinary/. Retrieved September 7, 2019.