Jennifer Doudna

Jennifer Doudna
Born Jennifer Anne Doudna
(1964-02-19) February 19, 1964
Nationality United States
Fields Biochemistry
Institutions University of California, Berkeley
Yale University
Alma mater Pomona College
Harvard University
Thesis Towards the design of an RNA replicase (1989)
Doctoral advisor Jack Szostak
Other academic advisors Thomas Cech
Known for
Notable awards

Website

Jennifer Anne Doudna (born 19 February 1964[2]) is a Professor of Chemistry and of Molecular and Cell Biology at the University of California, Berkeley.[3] She has been an investigator with the Howard Hughes Medical Institute (HHMI) since 1997.[4][5][6]

Education

Doudna earned her Bachelor of Arts degree in Chemistry from Pomona College in 1985, and her Ph.D. in Biochemistry from Harvard University on ribozymes under the mentorship of Jack W. Szostak. She did her postdoctoral work with Thomas Cech at the University of Colorado, Boulder.

Research and career

While in the Szostak lab, Doudna reengineered the self-splicing Group I catalytic intron into a true catalytic ribozyme that would copy RNA templates.[7][8] Recognizing the limitations of not being able see the molecular mechanisms of the ribozymes, she started work to crystallize and solve the three-dimensional structure of the Tetrahymena Group I ribozyme in 1991 in the Cech Lab and continued while she started her professorship at Yale University in 1994. While the group was able to grow high-quality crystals, they struggled with the phase problem due to unspecific binding of the metal ions. One of her early graduate students and later her husband, Jamie Cate decided to soak the crystals in osmium hexamine to imitate magnesium. Using this strategy, they were able to solve the structure, the second solved folded RNA structure since tRNA.[9][10] The magnesium ions would cluster at the center of the ribozyme and would serve as a core for RNA folding similar to that of a hydrophobic core of a protein.[5]

Doudna was promoted to the position of Henry Ford II Professor of Molecular Biophysics and Biochemistry at Yale in 2000. In 2002, she accepted a faculty position at University of California, Berkeley as a Professor of Biochemistry and Molecular Biology so that she would be closer to family and the synchrotron at Lawrence Berkeley National Laboratory. This initial work to solve large RNA structures led to further structural studies on the HDV ribozyme, the IRES, and protein-RNA complexes like the Signal recognition particle.[5] Her lab now focuses on obtaining a mechanistic understanding of biological processes involving RNA. This work is divided over three major areas, the CRISPR system, RNA interference, and translational control via MicroRNAs.[11]

In 2012 Doudna and her colleagues generated a new discovery that would reduce the time and work needed to edit genomic DNA. Their discovery relies on a protein named Cas9 found in the Streptococcus bacteria "CRISPR" immune system that works like scissors. The protein attacks its prey, the DNA of viruses, and slices it up.[12] In 2015, Doudna gave a TED Talk about the bioethics of using CRISPR. [13]

Honors and Awards

Doudna was a Searle Scholar and received a 1996 Beckman Young Investigators Award, the 1999 NAS Award for Initiatives in Research and the 2000 Alan T. Waterman Award. She was elected to the National Academy of Sciences in 2002[5] and to the Institute of Medicine in 2010.

References

  1. Doudna, Jennifer (2015). "Genome-editing revolution: My whirlwind year with CRISPR". Nature 528 (7583): 469–71. doi:10.1038/528469a. PMID 26701037.
  2. "Jennifer Doudna  American biochemist". Encyclopedia Britannica. Retrieved 13 November 2015.
  3. Pollack, Andrew (May 11, 2015). "Jennifer Doudna, a Pioneer Who Helped Simplify Genome Editing". New York Times. Retrieved May 12, 2015.
  4. Interview from the National Academy of Science
  5. 1 2 3 4 Marino, M. (2004). "Biography of Jennifer A. Doudna". Proceedings of the National Academy of Sciences 101 (49): 16987. doi:10.1073/pnas.0408147101.
  6. Jennifer Doudna's publications indexed by the Scopus bibliographic database, a service provided by Elsevier.
  7. Rajagopal, J; Doudna, J.; Szostak, J. (May 12, 1989). "Stereochemical course of catalysis by the Tetrahymena ribozyme". Science 244 (4905): 692–694. doi:10.1126/science.2470151. PMID 2470151.
  8. "Jennifer A. Doudna, Ph.D.". HHMI. Retrieved August 26, 2012.
  9. Powell, Kendall (2005). "Renaissance Women". HHMI Bulletin. Retrieved August 26, 2012.
  10. Cate, JH; Gooding, AR; Podell, E; Zhou, K; Golden, BL; Kundrot, CE; Cech, TR; Doudna, JA (September 20, 1996). "Crystal structure of a group I ribozyme domain: principles of RNA packing.". Science 273 (5282): 1678–85. doi:10.1126/science.273.5282.1678. PMID 8781224.
  11. "The Doudna Lab". Retrieved August 26, 2012.
  12. Russell, Sabin. "Cracking the Code: Jennifer Doudna and Her Amazing Molecular Scissors." Cal Alumni Association. N.p., 2014. Web. 17 Mar. 2015. http://alumni.berkeley.edu/california-magazine/winter-2014-gender-assumptions/cracking-code-jennifer-doudna-and-her-amazing
  13. "Jennifer Doudna TED Talk".


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