| [1] | de Visser JAGM, Hermisson J, Wagner GP, Meyers LA, Bagheri-Chaichian H, et al. (2003) Perspective: evolution and detection of genetic robustness. Evolution 57: 1959–1972.
|
| [2] | Earl DJ, Deem MW (2004) Evolvability is a selectable trait. Proc Natl Acad Sci U S A 101: 11531–11536.
|
| [3] | Wagner A (2005) Robustness and evolvability in living systems. Princeton: Princeton University Press. 367 p.
|
| [4] | Nowak MA, Boerlijst MC, Cooke J, Maynard Smith J (1997) Evolution of genetic redundancy. Nature 388: 167–171.
|
| [5] | Swenson W, Wilson DS, Elias R (2000) Artificial ecosystem selection. Proc Natl Acad Sci U S A 97: 9110–9114.
|
| [6] | Krakauer DC, Plotkin JB (2002) Redundancy, antiredundancy, and the robustness of genomes. Proc Natl Acad Sci U S A 99: 1405–1409.
|
| [7] | Sniegowski PD, Gerrish PJ, Johnson T, Shaver A (2000) The evolution of mutation rates: Separating causes from consequences. Bioessays 22: 1057–1066.
|
| [8] | Wilke CO, Wang J, Ofria C, Lenski RE, Adami C (2001) Evolution of digital organisms at high mutation rate leads to survival of the flattest. Nature 412: 331–333.
|
| [9] | Montville R, Froissart R, Remold SK, Tenaillon O, Turner PE (2005) Evolution of mutational robustness in an RNA virus. PLoS Biol 3(11): 1939–1945. DOI: 10.1371/journal.pbio.0030381.
|
| [10] | Wagner GP, Booth G, Bagheri-Chaichian H (1997) A population genetic theory of canalization. Evolution 51: 329–347.
|
| [11] | Freeland SJ, Knight RD, Landweber LF, Hurst LD (2000) Early fixation of an optimal genetic code. Mol Biol Evol 17: 511–518.
|
| [12] | Drummond DA, Bloom JD, Adami C, Wilke CO, Arnold FH (2005) Why highly expressed proteins evolve slowly. Proc Natl Acad Sci U S A 102: 14338–14343.
|
| [13] | Misevic D, Ofria C, Lenski RE (2006) Sexual reproduction reshapes the genetic architecture of digital organisms. Proc R Soc London Ser B Biol Sci 273: 457–464.
|
| [14] | Azevedo RBR, Lohaus R, Srinivasan S, Dang KK, Burch CL (2006) Sexual reproduction selects for robustness and negative epistasis in artificial gene networks. Nature 440: 87–90.
|
| [15] | Kondrashov AS (1993) Classification of hypotheses on the advantage of amphimixis. J Hered 84: 372–387.
|
| [16] | Lynch M, Force A (2000) The probability of duplicate gene preservation by subfunctionalization. Genetics 154: 459–473.
|
| [17] | Bridgham JT, Carroll SM, Thornton JW (2006) Evolution of hormone-receptor complexity by molecular exploitation. Science 312: 97–101.
|
| [18] | Wilke CO (2001) Adaptive evolution on neutral networks. Bull Math Biol 63: 715–730.
|
| [19] | Huynen MA, Stadler PF, Fontana WB (1996) Smoothness within ruggedness: The role of neutrality in adaptation. Proc Natl Acad Sci U S A 93: 397–401.
|
| [20] | Lenski RE, Ofria C, Pennock RT, Adami C (2003) The evolutionary origin of complex features. Nature 423: 139–144.
|
| [21] | Elena SF, Lenski RE (2003) Evolution experiments with microorganisms: the dynamics and genetic bases of adaptation. Nat Rev Gen 4: 457–469.
|
| [22] | Meyers LA, Ancel FD, Lachmann M (2005) Evolution of genetic potential. PLoS Comp Biol 1(3): 236–243. DOI: 10.1371/journal.pcbi.0010032.
|
