Environmental stress and reproduction in Drosophila melanogaster : starvation resistance, ovariole numbers and early age egg production
详细信息 查看全文
- 作者:Marta L Wayne (1)
Usha Soundararajan (2)
Lawrence G Harshman (2) - 刊名:BMC Evolutionary Biology
- 出版年:2006
- 出版时间:December 2006
- 年:2006
- 卷:6
- 期:1
- 全文大小:357KB
- 参考文献:1. de Jong G, van Noordwijk AJ: lass="a-plus-plus">Acquisition and allocation of resources: genetic (co)variances, selection and life histories. / American Naturalist 1992, lass="a-plus-plus">139: 749鈥?70. lass="external" href="http://dx.doi.org/10.1086/285356">CrossRef
2. Stearns SC: / The Evolution of Life Histories / 1 Edition Oxford University Press 1992.
3. Harshman LG, Hoffmann AA: lass="a-plus-plus">Laboratory selection experiments using lass="a-plus-plus">Drosophila lass="a-plus-plus">: what do they really tell us? / TREE 2000, lass="a-plus-plus">15: 32鈥?6. lass="external" href="http://dx.doi.org/10.1007/s004680000070">CrossRef
4. Parsons PA: lass="a-plus-plus">Ecobehavioral genetics 鈥?habitats and colonists. / Annual Review of Ecology and Systematics 1983, lass="a-plus-plus">14: 35鈥?5. lass="external" href="http://dx.doi.org/10.1146/annurev.es.14.110183.000343">CrossRef
5. Fitt GP: lass="a-plus-plus">Variation in ovariole number and egg size ofspecies of lass="a-plus-plus">Dacus lass="a-plus-plus">(Diptera; Tephritidae) and their relation to host specialization. / Ecological Entomology 1990, lass="a-plus-plus">15: 255鈥?64. lass="external" href="http://dx.doi.org/10.1111/j.1365-2311.1990.tb00807.x">CrossRef
6. Kambysellis MP, Heed WB: lass="a-plus-plus">Studies of oogenesis in natural populations of lass="a-plus-plus">Drosophilidae lass="a-plus-plus">. I. Relation of ovarian development and ecological habitats of the Hawaiian species. / American Naturalist 1971, lass="a-plus-plus">105: 31鈥?9. lass="external" href="http://dx.doi.org/10.1086/282700">CrossRef
7. R'kha S, Moreteau B, Coyne JA, David JR: lass="a-plus-plus">Evolution of a lesser fitness trait: egg production in the specialist lass="a-plus-plus">Drosophila sechellia lass="a-plus-plus">. / Genetical Research 1997, lass="a-plus-plus">69: 17鈥?3. lass="external" href="http://dx.doi.org/10.1017/S0016672396002546">CrossRef
8. Delpuech J-M, Moreteau B, Chiche J, Pla E, Vouidibio J, David JR: lass="a-plus-plus">Phenotypic plasticity and reaction norms in temperate and tropical populations of lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">: ovarian size and developmental temperature. / Evolution 1995, lass="a-plus-plus">49: 670鈥?75. lass="external" href="http://dx.doi.org/10.2307/2410320">CrossRef
9. Lemeunier F, David JR, Tsacas L, Ashburner M: lass="a-plus-plus">Geographic variations and climatic adaptations. / The Genetics and Biology of Drosophila / (Edited by: Ashburner M). London: Academic Press 1986, lass="a-plus-plus">3e: 147鈥?56.
10. Capy P, Pla E, David JR: lass="a-plus-plus">Phenotypic and genetic variability of morphometrical traits in natural populations of lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">and lass="a-plus-plus">D. simulans lass="a-plus-plus">. I. Geographic variations. / Genet Sel Evol 1993, lass="a-plus-plus">25: 517鈥?36. lass="external" href="http://dx.doi.org/10.1186/1297-9686-25-6-517">CrossRef
11. Azevedo RBR, French V, Partridge L: lass="a-plus-plus">Thermal evolution of egg size in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">. / Evolution 1996, lass="a-plus-plus">50: 2338鈥?345. lass="external" href="http://dx.doi.org/10.2307/2410702">CrossRef
12. Berry A, Kreitman M: lass="a-plus-plus">Molecular analysis of an allozyme cline: Alcohol dehydrogenase in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">on the east coast of North America. / Genetics 1993, lass="a-plus-plus">134: 869鈥?93.
13. de Jong G, Bochdanovits Z: lass="a-plus-plus">Latitudinal clines in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">: body size, allozyme frequencies, inversion frequencies, and the insulin-signalling pathway. / Journal of Genetics 2003, lass="a-plus-plus">82: 207鈥?23. lass="external" href="http://dx.doi.org/10.1007/BF02715819">CrossRef
14. Rose MR, Graves JL, Hutchinson EW: lass="a-plus-plus">The use of selection to probe patterns of pleiotropy in fitness characters. / Insect Life Cycles / (Edited by: Gilbert F). New York: Springer Verlag 1990, 29鈥?2.
15. Rose MR, Nusbaum TJ, Chippindale AK: lass="a-plus-plus">Laboratory evolution: the experimental wonderland and the Cheshire Cat Syndrome. / Adaptation / (Edited by: Rose MR, Lauder GV). San Diego: Academic Press 1996, 221鈥?42.
16. Huey RB, Kingsolver JG: lass="a-plus-plus">Evolution of resistance to high temperature in ectotherms. / American Naturalist 1993, lass="a-plus-plus">142: 521鈥?46.
17. Gibbs AG: lass="a-plus-plus">Laboratory selection for the comparative physiologist. / Journal of Experimental Biology 1999, lass="a-plus-plus">202: 2709鈥?718.
18. Harshman LG, Hoffmann AA, Clark AG: lass="a-plus-plus">Selection for starvation resistance in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">: physiological correlates, enzyme activities and multiple stress responses. / J Evol Biol 1999, lass="a-plus-plus">12: 370鈥?79. lass="external" href="http://dx.doi.org/10.1046/j.1420-9101.1999.00024.x">CrossRef
19. Chippindale AK, Chu TJF, Rose MR: lass="a-plus-plus">Complex trade-offs and the evolution of starvation resistance in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">. / Evolution 1996, lass="a-plus-plus">50: 753鈥?66. lass="external" href="http://dx.doi.org/10.2307/2410848">CrossRef
20. Rose MR, Vu LN, Park SU, Graves JL: lass="a-plus-plus">Selection on stress resistance increases longevity in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">. / Experimental Gerontology 1992, lass="a-plus-plus">27: 241鈥?50. lass="external" href="http://dx.doi.org/10.1016/0531-5565(92)90048-5">CrossRef
21. Harshman LG, Moore KM, Sty MA, Magwire MM: lass="a-plus-plus">Stress resistance and longevity in selected lines of lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">. / Neurobiol Aging 1999, lass="a-plus-plus">20: 521鈥?29. lass="external" href="http://dx.doi.org/10.1016/S0197-4580(99)00091-3">CrossRef
22. Harshman LG, Schmid JL: lass="a-plus-plus">Evolution of starvation resistance in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">: Aspects of metabolism and counter-impact selection. / Evolution 1998, lass="a-plus-plus">52: 1679鈥?685. lass="external" href="http://dx.doi.org/10.2307/2411340">CrossRef
23. Cortese MD, Norry FM, Piccinali R, Hasson E: lass="a-plus-plus">Direct and correlated responses to artificial selection on development time and wing length in lass="a-plus-plus">Drosophila buzzatti lass="a-plus-plus">. / Evolution 2002, lass="a-plus-plus">56: 2541鈥?547.
24. Partridge L, Fowler K: lass="a-plus-plus">Responses and correlated responses to artificial selection on thorax length in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">. / Evolution 1993, lass="a-plus-plus">47: 213鈥?26. lass="external" href="http://dx.doi.org/10.2307/2410130">CrossRef
25. Robertson FW: lass="a-plus-plus">The ecological genetics of growth in lass="a-plus-plus">Drosophila lass="a-plus-plus">. / Genet Res 1963, lass="a-plus-plus">4: 74鈥?2. lass="external" href="http://dx.doi.org/10.1017/S001667230000344X">CrossRef
26. van Noordwijk AJ, de Jong G: lass="a-plus-plus">Acquisition and allocation of resources: their influence on variation in life-history tactics. / American Naturalist 1996, lass="a-plus-plus">128: 137鈥?42.
27. Tower J: lass="a-plus-plus">Aging mechanisms in fruit flies. / BioEssays 1996, lass="a-plus-plus">18: 799鈥?07. lass="external" href="http://dx.doi.org/10.1002/bies.950181006">CrossRef
28. Graves JL, Toolson EC, Jeong C, Vu LN, Rose MR: lass="a-plus-plus">Desiccation, flight, glycogen, and postponed senescence in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">. / Physiological Zoology 1992, lass="a-plus-plus">65: 268鈥?86.
29. Djawdan M, Chippindale AK, Rose MR, Bradley TJ: lass="a-plus-plus">Metabolic reserves and evolved stress resistance in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">. / Physiological Zoology 1998, lass="a-plus-plus">71: 584鈥?94.
30. Djawdan M, Rose MR, Bradley TJ: lass="a-plus-plus">Does selection for stress resistance lower metabolic rates? / Ecology 1997, lass="a-plus-plus">78: 828鈥?37. lass="external" href="http://dx.doi.org/10.1890/0012-9658(1997)078[0828:DSFSRL]2.0.CO;2">CrossRef
31. Rose MR, Bradley TJ: lass="a-plus-plus">Evolutionary physiology of the cost of reproduction. / Oikos 1998, lass="a-plus-plus">83: 443鈥?51. lass="external" href="http://dx.doi.org/10.2307/3546672">CrossRef
32. Leroi AM: lass="a-plus-plus">Molecular signals versus the lass="a-plus-plus">Loi de Balancement lass="a-plus-plus">. / Trends in Ecology and Evolution 2001, lass="a-plus-plus">16: 24鈥?9. lass="external" href="http://dx.doi.org/10.1016/S0169-5347(00)02032-2">CrossRef
33. Garofalo RS: lass="a-plus-plus">Genetic analysis of insulin signaling in lass="a-plus-plus">Drosophila lass="a-plus-plus">. / Trends in Endocrinology and Metabolism 2002, lass="a-plus-plus">13: 156鈥?62. lass="external" href="http://dx.doi.org/10.1016/S1043-2760(01)00548-3">CrossRef
34. Richard DS, Rybczynski R, Wilson TG, Wang Y, Wayne ML, Zhou Y, Partridge L, Harshman LG: lass="a-plus-plus">Insulin signaling is necessary for vitellogenesis in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">independent of the roles of juvenile hormone and ecdysteroids: Female sterility of the lass="a-plus-plus">chico lass="a-plus-plus"> lass="a-plus-plus">1 lass="a-plus-plus">insulin signaling mutation is autonomous to the ovary. / Journal of Insect Physiology 2005, lass="a-plus-plus">51: 455鈥?64. lass="external" href="http://dx.doi.org/10.1016/j.jinsphys.2004.12.013">CrossRef
35. Carlson KA, Nusbaum TJ, Rose MR, Harshman LG: lass="a-plus-plus">Oocyte maturation and ovariole number in lines of lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">selected for postponed senescence. / Functional Ecology 1998, lass="a-plus-plus">12: 514鈥?20. lass="external" href="http://dx.doi.org/10.1046/j.1365-2435.1998.00224.x">CrossRef
36. Carlson KA, Harshman LG: lass="a-plus-plus">Extended longevity lines of lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">: characterization of oocyte stages and ovariole numbers as a function of age and diet. / J Gerontol Ser A-Biol Sci Med Sci 1999, lass="a-plus-plus">54: B432-B440.
37. Zera AJ, Harshman LG: lass="a-plus-plus">The physiology of life history trade-offs in animals. / Annual Review of Ecology and Systematics 2001.
38. Boul茅treau-Merle J, Allemand R, Cohet Y, David JR: lass="a-plus-plus">Reproductive strategy in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">: Significance of a genetic divergence between temperate and tropical populations. / Oecologia 1982, lass="a-plus-plus">53: 323鈥?29. lass="external" href="http://dx.doi.org/10.1007/BF00389008">CrossRef
39. Cohet Y, David J: lass="a-plus-plus">Control of the adult reproductive potential by preimaginal thermal conditions. / Oecologia 1978, lass="a-plus-plus">36: 295鈥?06. lass="external" href="http://dx.doi.org/10.1007/BF00348055">CrossRef
40. David JR: lass="a-plus-plus">Le nombre d'ovarioles chez la lass="a-plus-plus">Drosophila lass="a-plus-plus">: Relation avec la fecondite et valeur adaptive. / Archives de Zoologie Exp茅rimentale et G茅n茅rale 1970, lass="a-plus-plus">111: 357鈥?70.
41. Harbison ST, Yamamoto AH, Fanara JJ, Norga KK, Mackay TFC: lass="a-plus-plus">Quantitative trait loci affecting starvation resistance in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">. / Genetics 2004, lass="a-plus-plus">166: 1807鈥?823. lass="external" href="http://dx.doi.org/10.1534/genetics.166.4.1807">CrossRef
42. Xie T, Spradling AC: lass="a-plus-plus">A niche maintaining germ line stemcells in the lass="a-plus-plus">Drosophila lass="a-plus-plus">ovary. / Science 2000, lass="a-plus-plus">290: 328鈥?30. lass="external" href="http://dx.doi.org/10.1126/science.290.5490.328">CrossRef
43. Hoffmann AA, Hallas R, Sinclair C, Mitrovski P: lass="a-plus-plus">Levels of variation in stress resistance in lass="a-plus-plus">Drosophila lass="a-plus-plus">among strains, local populations, and geographic regions: Patterns for desiccation, starvation, cold resistance, and associated traits. / Evolution 2001, lass="a-plus-plus">55: 1621鈥?630.
44. Chippindale AK, Leroi AM, Kim SB, Rose MR: lass="a-plus-plus">Phenotypic plasticity and selection in lass="a-plus-plus">Drosophila lass="a-plus-plus">life-history evolution. I. Nutrition and the cost of reproduction. / Journal of Evolutionary Biology 1993, lass="a-plus-plus">6: 171鈥?93. lass="external" href="http://dx.doi.org/10.1046/j.1420-9101.1993.6020171.x">CrossRef
45. Salmon AB, Marx DB, Harshman LG: lass="a-plus-plus">A cost of reproduction in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">: Stress susceptibility. / Evolution 2001, lass="a-plus-plus">55: 1600鈥?608.
46. Rose MR: lass="a-plus-plus">Laboratory evolution of postponed senescence in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">. / Evolution 1984, lass="a-plus-plus">38: 1004鈥?010. lass="external" href="http://dx.doi.org/10.2307/2408434">CrossRef
47. Service PM: lass="a-plus-plus">Physiological mechanisms of increased stress resistance in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">selected for postponed senescence. / Physiol Zool 1987, lass="a-plus-plus">60: 321鈥?26.
48. Service PM, Hutchinson EW, Mackinley MD, Rose MR: lass="a-plus-plus">Resistance to environmental stress in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">selected for postponed senescence. / Evolution 1985, lass="a-plus-plus">42: 708鈥?16. lass="external" href="http://dx.doi.org/10.2307/2408862">CrossRef
49. Wayne ML, Hackett JB, Mackay TFC: lass="a-plus-plus">Quantitative genetics of ovariole number in lass="a-plus-plus">Drosophila melanogaster lass="a-plus-plus">. I. Segregating variation for chromosome 3 and fitness. / Evolution 1997, lass="a-plus-plus">51: 1156鈥?163. lass="external" href="http://dx.doi.org/10.2307/2411045">CrossRef - 作者单位:Marta L Wayne (1)
Usha Soundararajan (2)
Lawrence G Harshman (2)
1. Department of Zoology, University of Florida, Gainesville, FL32611, USA
2. School of Biological Sciences, University of Nebraska-Lincoln, Lincoln, NE, 68588, USA
文摘
Background The Y model of resource allocation predicts a tradeoff between reproduction and survival. Environmental stress could affect a tradeoff between reproduction and survival, but the physiological mechanisms underlying environmental mediation of the tradeoff are largely unknown. One example is the tradeoff between starvation resistance and early fecundity. One goal of the present study was to determine if reduced early age fecundity was indeed a robust indirect response to selection for starvation resistance, by investigation of a set of D. melanogaster starvation selected lines which had not previously been characterized for age specific egg production. Another goal of the present study was to investigate a possible relationship between ovariole number and starvation resistance. Ovariole number is correlated with maximum daily fecundity in outbred D. melanogaster. Thus, one might expect that a negative genetic correlation between starvation resistance and early fecundity would be accompanied by a decrease in ovariole number. Results Selection for early age female starvation resistance favored survival under food deprivation conditions apparently at the expense of early age egg production. The total number of eggs produced by females from selected and control lines was approximately the same for the first 26 days of life, but the timing of egg production differed such that selected females produced fewer eggs early in adult life. Females from lines selected for female starvation resistance exhibited a greater number of ovarioles than did unselected lines. Moreover, maternal starvation resulted in progeny with a greater number of ovarioles in both selected and unselected lines. Conclusion Reduced early age egg production is a robust response to laboratory selection for starvation survival. Ovariole numbers increased in response to selection for female starvation resistance indicating that ovariole number does not account for reduced early age egg production. Further, ovariole number increased in a parallel response to maternal starvation, suggesting an evolutionary association between maternal environment and the reproductive system of female progeny.