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Athena Aktipis Bio Essays Journal

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This "Cited by" count includes citations to the following articles in Scholar. The ones marked * may be different from the article in the profile.
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  • Carlo C. MaleyBiodesign Institute, Arizona State UniversityVerified email at
  • Amy BoddyUniversity of California Santa BarbaraVerified email at
  • Trevor A GrahamProfessor of Cancer Evolution, Barts Cancer Institute, QMULVerified email at
  • Robert KurzbanProfessor, Psychology, University of PennsylvaniaVerified email at
  • Joe AlcockProfessor of Emergency Medicine, University of New MexicoVerified email at
  • Lee CronkProfessor of Anthropology, Rutgers UniversityVerified email at
  • Greg BryantAssociate Professor, Communication, UCLAVerified email at
  • Joel S BrownMoffitt Cancer CenterVerified email at
  • John W. PepperNational Cancer InstitutueVerified email at
  • Gerald WilkinsonProfessor of Biology, University of MarylandVerified email at
  • Randolph M NesseProfessor of Life Sciences, Arizona State UniversityVerified email at
  • Michael HochbergResearch Director, CNRS - University of Montpellier - External Faculty, Santa Fe InstituteVerified email at
  • Virginia KwanDepartment of Psychology, Arizona State UniversityVerified email at
  • Hanna KokkoUniversity of ZurichVerified email at
  • Felix BredenProfessor of Biological Sciences, Simon Fraser UniversityVerified email at
  • 1.

    Stearns, S. C.The evolution of life histories (Oxford Univ. Press, 1992).

  • 2.

    Stearns, S. C.Trade-offs in life-history evolution. Funct. Ecol.3, 259–268 (1989).

  • 3.

    Williams, G. C.Natural selection, the cost or reproduction and a refinement of Lack's principle. Am. Nat.100, 687–690 (1966).

  • 4.

    Creighton, J. C., Heflin, N. D. & Belk, M. C.Cost of reproduction, resource quality, and terminal investment in a burying beetle. Am. Nat.174, 673–684 (2009).

  • 5.

    Fabian, D. & Flatt, T.Life history evolution. Nature Education Knowledge3, 24 (2012).

  • 6.

    Partridge, L. & Prowse, N.The effects of reproduction on longevity and fertility in male Drosophila melanogaster. J. Insect Physiol.43, 501–512 (1997).

  • 7.

    Zakrzewska, al.Genome-wide analysis of yeast stress survival and tolerance acquisition to analyze the central trade-off between growth rate and cellular robustness. Mol. Biol. Cell22, 4435–4446 (2011).

  • 8.

    Broxterman, H. al.Induction by verapamil of a rapid increase in ATP consumption in multidrug-resistant tumor cells. FASEB J.2, 2278–2282 (1988).

  • 9.

    Vander Heiden, M. G., Cantley, L. C. & Thompson, C. B.Understanding the Warburg effect: the metabolic requirements of cell proliferation. Science324, 1029–1033 (2009).

  • 10.

    Gatenby, R. A. & Gillies, R. J.Why do cancers have high aerobic glycolysis?Nature Rev. Cancer4, 891–899 (2004).

  • 11.

    Jerby, al.Metabolic associations of reduced proliferation and oxidative stress in advanced breast cancer. Cancer Res.72, 5712–5720 (2012).

  • 12.

    Williams, G. C.Pleiotropy, natural selection, and the evolution of senescence. Evolution11, 398–411 (1957).

  • 13.

    Leroi, A. al.What evidence is there for the existence of individual genes with antagonistic pleiotropic effects?Mech. Ageing Dev.126, 421–429 (2005).

  • 14.

    Campisi, J.Cellular senescence and apoptosis: how cellular responses might influence aging phenotypes. Exp. Gerontol.38, 5–11 (2003).

  • 15.

    Ungewitter, E. & Scrable, H.Antagonistic pleiotropy and p53. Mech. Ageing Dev.130, 10–17 (2009).

  • 16.

    Jeschke, J. M. & Kokko, H.The roles of body size and phylogeny in fast and slow life histories. Evol. Ecol.23, 867–878 (2009).

  • 17.

    MacArthur, R. & Wilson, E. O.The theory of island biography (Princeton Univ. Press, 1967).

  • 18.

    Malthus, T. R.An Essay on the Principle of Population (Johnson, 1798).

  • 19.

    Aktipis, C. A., Maley, C. C. & Pepper, J. W.Dispersal evolution in neoplasms: the role of disregulated metabolism in the evolution of cell motility. Cancer Prev. Res. (Phila)5, 266–275 (2012).

  • 20.

    Chen, J., Sprouffske, K., Huang, Q. & Maley, C. C.Solving the puzzle of metastasis: the evolution of cell migration in neoplasms. PLoS ONE6, e17933 (2011).

  • 21.

    Reznick, D. & Bryant, M. J. & Bashey, F.r- and K-selection revisited: The role of population regulation in life-history evolution. Ecology83, 1509–1520 (2002).

  • 22.

    Skutch, A. F.Life history of Longuemare's hermit hummingbird. Int. J. Avain Sci.93, 180–195 (1951).

  • 23.

    Howe, H. F. & Smallwood, J.Ecology of seed dispersal. Ann. Rev. Ecol. Systemat.13, 201–228 (1982).

  • 24.

    Promislow, D. E. L. & Harvey, P. H.Living fast and dying young: A comparative analysis of life-history variation in mammals. J. Zool.220, 417–437 (1990).

  • 25.

    Ebenman, B.Competition between age classes and population dynamics. J. Theor. Biol.131, 389–400 (1988).

  • 26.

    Turnbull, L. A., Rees, M. & Crawley, M. J.Seed mass and the competition/colonization trade-off: a sowing experiment. J. Ecol.87, 899–912 (1999).

  • 27.

    Hanahan, D. & Weinberg, R. A.The hallmarks of cancer. Cell100, 57–70 (2000).

  • 28.

    Hanahan, D. & Weinberg, R. A.Hallmarks of cancer: the next generation. Cell144, 646–674 (2011).

  • 29.

    Gerlinger, M. & Swanton, C.How Darwinian models inform therapeutic failure initiated by clonal heterogeneity in cancer medicine. Br. J. Cancer103, 1139–1143 (2010).

  • 30.

    Gillies, R. J., Verduzco, D. & Gatenby, R. A.Evolutionary dynamics of carcinogenesis and why targeted therapy does not work. Nature Rev. Cancer12, 487–493 (2012).

  • 31.

    Greaves, M. & Maley, C. C.Clonal evolution in cancer. Nature481, 306–313 (2012).

  • 32.

    Merlo, L. M., Pepper, J. W., Reid, B. J. & Maley, C. C.Cancer as an evolutionary and ecological process. Nature Rev. Cancer6, 924–935 (2006).

  • 33.

    Nowell, P. C.The clonal evolution of tumor cell populations. Science194, 23–28 (1976).

  • 34.

    van Diest, P. J., van der Wall, E. & Baak, J. P.Prognostic value of proliferation in invasive breast cancer: a review. J. Clin. Pathol.57, 675–681 (2004).

  • 35.

    Kreso, al.Variable clonal repopulation dynamics influence chemotherapy response in colorectal cancer. Science339, 543–548 (2013).

  • 36.

    Orlando, P. A., Gatenby, R. A. & Brown, J. S.Tumor evolution in space: The effects of competition colonization tradeoffs on tumor invasion dynamics. Front. Oncol. (2013).

  • 37.

    Alfarouk, K. O., Ibrahim, M. E., Gatenby, R. A. & Brown, J. S.Riparian ecosystems in human cancers. Evol. Appl.6, 46–53 (2013).

  • 38.

    Brurberg, K. G., Skogmo, H. K., Graff, B. A., Olsen, D. R. & Rofstad, E. K.Fluctuations in pO2 in poorly and well-oxygenated spontaneous canine tumors before and during fractionated radiation therapy. Radiother. Oncol.77, 220–226 (2005).

  • 39.

    Cardenas-Navia, L. al.The pervasive presence of fluctuating oxygenation in tumors. Cancer Res.68, 5812–5819 (2008).

  • 40.

    Limberger, R. & Wickham, S. A.Competition-colonization trade-offs in a ciliate model community. Oecologia167, 723–732 (2011).

  • 41.

    Turchin, P.Does population ecology have general laws?OIKOS94, 17–26 (2001).