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  1. Barrick, J. E., M. R. Kauth, C. C. Strelioff, and R. E. Lenski. 2010. Escherichia coli rpoB mutants have increased evolvability in proportion to their fitness defects. Molecular Biology and Evolution 27:1338-1347. (Abstract)
  2. Lenski, R. E. 2002. Resistance, cost of. Pp. 1008-1010 in M. Pagel, S. Frank, C. Godfray, B. K. Hall, K. Hawkes, D. M. Hillis, A. Kodric-Brown, R. E. Lenski, and A. Pomiankowski, eds. Encyclopedia of Evolution. Oxford University Press, New York. (Order)
  3. Lenski, R. E. 1998. Bacterial evolution and the cost of antibiotic resistance. International Microbiology 1:265-270. (PDF link)
  4. Lenski, R. E. 1997. The cost of antibiotic resistance - from the perspective of a bacterium. Pp. 131-151 in D. J. Chadwick and J. Goode, eds. Antibiotic Resistance: Origins, Evolution, Selection and Spread (Ciba Foundation Symposium 207). Wiley, Chichester, UK. (Abstract)
  5. Lenski, R. E., S. C. Simpson, and T. T. Nguyen. 1994. Genetic analysis of a plasmid-encoded, host genotype-specific enhancement of bacterial fitness. Journal of Bacteriology 176:3140-3147. (Abstract)(Acrobat file)
  6. Lenski, R. E., V. Souza, L. P. Duong, Q. G. Phan, T. N. M. Nguyen, and K. P. Bertrand. 1994. Epistatic effects of promoter and repressor functions of the Tn10 tetracycline-resistance operon on the fitness of Escherichia coli. Molecular Ecology 3:127-135. (Acrobat file)
  7. Nguyen, T. N. M., Q. G. Phan, L. P. Duong, K. P. Bertrand, and R. E. Lenski. 1989. Effects of carriage and expression of the Tn10 tetracycline resistance operon on the fitness of Escherichia coli K12. Molecular Biology and Evolution 6:213-225. (Acrobat file)
  8. Bouma, J. E., and R. E. Lenski. 1988. Evolution of a bacteria/plasmid association. Nature 335:351-352. (Abstract)(Acrobat file)
  9. Lenski, R. E., and J. E. Bouma. 1987. Effects of segregation and selection on instability of pACYC184 in Escherichia coli B. Journal of Bacteriology 169:5314-5316. (Abstract)
  10. Lenski, R. E., and S. E. Hattingh. 1986. Coexistence of two competitors on one resource and one inhibitor: a chemostat model based on bacteria and antibiotics. Journal of Theoretical Biology 122:83-93. (Acrobat file)

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