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BARRICK, JEFFREY E

Jeffrey E Barrick

Professor
Molecular Biosciences

Benjamin Clayton Centennial Professorship in Biochemistry (Holder)

Microbial experimental evolution and synthetic biology

jbarrick@cm.utexas.edu

Phone: 512-471-3247

Office Location
MBB 1.436

Postal Address
2500 SPEEDWAY
AUSTIN, TX 78712

B.S., California Institute of Technology (2001)
Ph.D., Yale University (2006)
Postdoctoral Fellow, Michigan State University (2006-2010)

Research

Controlling evolution is key to combating the emergence of drug resistance, preventing the progression of chronic infections and cancers, and maintaining the function of genetically engineered cells. Evolution can also be harnessed for biotechnology and medicine: used to create novel therapeutics and to optimize microbial bioprocessing, for example. My laboratory is interested in developing methods to anticipate and arrest unwanted evolution and in understanding how expanded genetic codes and other engineered genome-wide changes can be used to study and augment the evolutionary potential of microbes. Recently, we have also begun to use synthetic biology tools to engineer bacterial endosymbionts of insects for various applications, including engineering honey bee gut symbionts to protect pollinator health, engineering aphid symbionts to protect crops, and engineering leafhopper symbionts to control biomaterial production.

Barrick Lab Overview

View all publications on barricklab.org

View all publications on Google Scholar

Representative Publications 

Powell, J.E., Perutka, J., Geng, P., Heckmann, L.C., Horak, R.D., Davies, B.W., Ellington, A.D., Barrick, J.E., Moran, N.A. (2020) Engineered symbionts activate honey bee immunity and limit pathogens. Science 367:573–576.

Zhang, X., Deatherage, D.E., Zheng, H., Georgoulis, S.J., ^Barrick, J.E. (2019) Evolution of satellite plasmids can stabilize the maintenance of newly acquired accessory genes in bacteria. Nat. Comm. 10:5809.Leonard, S.P.,

Geng, P., Leonard, S.P., Mishler, D.M., Barrick, J.E. (2019) Synthetic genome defenses against selfish DNA elements stabilize engineered bacteria against evolutionary failure. ACS Synth. Biol. 8:521-531.

Deatherage, D.E., Leon, D., Rodriguez, Á.E., Omar, S., Barrick, J.E. (2018) Directed evolution of Escherichia coli with lower-than-natural plasmid mutation rates. Nucleic Acids Res. 46:9236-9250.

Leonard, S.P., Perutka, J., Powell, J.E., Geng, P., Richhart, D., Byrom, M., Kar, S., Davies, B.W., Ellington, A.D., Moran, N.A., Barrick, J.E. (2018) Genetic engineering of bee gut microbiome bacteria with a toolkit for modular assembly of broad-host-range plasmids. ACS Synth. Biol. 7:1279-1290.

Bull, J.J., Barrick, J.E. (2017) Arresting evolution. Trends Genet. 33:910-920.

Tenaillon, O., Barrick, J.E., Ribeck, N., Deatherage, D.E., Blanchard, J.L, Dasgupta, A., Wu, G.C., Wielgoss, S., Cruveiller, S., Medigue, C., Schneider, D., Lenski, R.E.^ (2016) Tempo and mode of genome evolution in a 50,000-generation experiment. Nature 536:165-170.

Renda, B.A., Hammerling, M.J., Barrick, J.E. (2014) Engineering reduced evolutionary potential for synthetic biology. Mol. Biosyst. 10:1668-1678.

Deatherage, D.E., Barrick, J.E. (2014) Identification of mutations in laboratory-evolved microbes from next-generation sequencing data using breseqMethods Mol. Biol. 1151:165-188.

Hammerling, M.J., Ellefson, J.W., Boutz, D.R., Marcotte, E.M., Ellington, A.D., Barrick, J.E. (2014) Bacteriophages use an expanded genetic code on evolutionary paths to higher fitness. Nat. Chem. Biol. 10:178-180.

Barrick, J.E., Lenski, R.L. (2013) Genome dynamics during experimental evolution. Nat. Rev. Genet. 14:827-834.

 

  • Defense Science Study Group (2018-2019)
  • NSF CAREER Award (2016)
  • NIH Pathway to Independence Award (2009)
  • NSF Postdoctoral Research Fellowship in Biological Informatics (2006)
  • RNA Society/Scaringe Young Scientist Award (2006)
  • Howard Hughes Medical Institute Predoctoral Fellowship (2001)
  • Caltech George W. Green Memorial Prize (2000)

BCH 339F: Foundations of Biochemistry

NSC 110: Biotechnology and Society

UT Austin iGEM Synthetic Biology Team