研究生: |
王玫婷 Mei-Ting Wang |
---|---|
論文名稱: |
青背山雀的遺傳異型交配 Genetically disassortative mating in the Green-backed Tit (Parus monticolus) |
指導教授: |
李壽先
Li, Shou-Hsien |
學位類別: |
碩士 Master |
系所名稱: |
生命科學系 Department of Life Science |
論文出版年: | 2005 |
畢業學年度: | 93 |
語文別: | 英文 |
論文頁數: | 52 |
中文關鍵詞: | 青背山雀 、遺傳異型交配 、微衛星體基因座 |
英文關鍵詞: | Green-backed tit, disassortative mating, microsatellite |
論文種類: | 學術論文 |
相關次數: | 點閱:193 下載:2 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
遺傳合適性假說提出:雌性應與最適合的雄性交配來產下擁有最適合基因型的子代。如果適應性是與所有基因中的異型合子有關,那麼這個假說就預測雌性應會與遺傳上最不相似的雄性交配以生下擁有較多異型合子的子代。自2002至2004年,我們在中台灣針對社會性一夫一妻制的青背山雀來測試遺傳合適性假說,總共用了9個多變異的微衛星體基因座來計算青背山雀基因中的異型合子及配對間的遺傳相似度。發現沒有偶外交配行為的配對(NEPF PAIRS)(平均Rxy = -0.164, n = 13),配對間的遺傳相似度顯著低於隨機配對(RANDOM PAIRS) (bootstrap, 平均Rxy = -0.046, p = 0.005, 雄性成鳥n = 36, 雌性成鳥n = 34)。被偶外交配的配對(CUCKOLDED PAIRS)(平均Rxy = 0.128, n = 3)配對間的遺傳相似度則顯著高於隨機配對(bootstrap, 平均Rxy = -0.044, p = 0.023)而偶外交配的配對(EPF PAIRS)(平均Rxy = 0.016, p = 0.225, n = 3),配對間的遺傳相似度則與隨機配對沒有顯著差異。
青背山雀的遺傳異型交配主要是根據遺傳合適性假說而來:雌性傾向與關係較遠的雄性交配。另外,當雌青背山雀與遺傳相似度高的雄性交配時,偶外交配(EPF)可能是增加子代異型合子的合適策略。在我們的研究中,有偶外交配子代巢中原生子代的平均異型合子(平均SH值=0.905, n=3, 平均IR值=0.032, n=3)是顯著低於沒有偶外交配巢中子代的平均異型合子(bootstrap, 平均SH值=1.038, 平均IR值=-0.096, n=18, p<0.001)但有偶外交配子代巢中偶外交配子代的平均異型合子,(平均SH值=1.057, p=0.242, 平均IR值=-0.101, p=0.412, n=4),則與沒有偶外交配巢中子代的平均異型合子沒有顯著差異。這個結果說明,雌性經由遺傳上較不相似的雄性偶外交配,來提高子代的異型合子,符合遺傳合適性假說。
此外,將青背山雀繁殖巢中有偶外交配子代的巢數比例(18%)與溫帶地區的近似種-白頰山雀(P. major)做比較,發現演化過程中的特徵保留可能是影響(亞)熱帶地區鳥類偶外交配比例的重要原因。
Genetic compatibility hypothesis suggests that females should produce offspring with the most adaptive genetic combination by mating with a most compatible male. If fitness is correlated with the heterozygosity of a set of genes or entire genome, the hypothesis predicts that females should mate with genetically dissimilar males to produce offspring with higher heterozygosity. To test the genetic compatibility hypothesis, we used nine polymorphic microsatellite loci to measure the heterozygosity and genetic similarity between mated pairs of the socially monogamous Green-backed Tit (Parus monticolus) at central Taiwan from 2002 to 2004. We found that genetic similarity between pairs that did not engage in extra-pair fertilization (EPF) (mean Rxy= -0.164, n= 13) was lower than that expected in random (bootstrap mean Rxy= -0.046, p = 0.005, n= 36 and 34 for adult males and females respectively). In contrast, genetic similarity between cuckolded pairs (mean Rxy= 0.128, n= 3) was significantly higher than that expected in random (bootstrap mean Rxy= -0.044, p = 0.023), but not for the EPF pairs (mean Rxy= 0.016, p= 0.255, n =3). Genetically disassortative mating of Green-backed Tits thus supported the major collateral of the genetic compatibility hypothesis: females tend to mate with distantly related males. In addition, EPF may serve as an adaptive strategy for female tits having genetically similar social mate, which was supported in our study that the mean heterozygosity of WPY of EPF broods (average SH and IR per brood= 0.905 and 0.0.32, respectively; n= 3) was significantly lower than that of broods without EPF (bootstrap mean SH and IR per brood= 1.038 and -0.096 respectively, n= 18; p<0.001 for both SH and IR), whereas that of EPY was not (average SH and IR per brood= 1.057 and -0.101, respectively; n= 4; p= 0.242 and 0.412 for SH and IR). It indicates female tendency to elevate heterozygosity of offspring by engaging in EPF with genetically dissimilar males, as predicted by the genetic compatibility hypothesis.
Because frequency of extra-pair fertilizations of the Green-backed Tit (18% of total broods) is compatible to that of its temperate relative, the Great Tit (P. major), we proposed that the phylogenetic constrain might play an important role to shape the frequency of extra-pair fertilization in the (sub)tropical birds .
Acevedo-Whitehouse, K., F Gulland, D Greig and W Amos, 2003. Inbreeding: Disease susceptibility in California sea lions. Nature, 422, 35
Allendorf, FW. and RF Leary, 1986. Heterozygosity and fitness in natural populations of animals. In: Conservation Biology: the Science of Scarcity and Diversity (ed. Soul ME), 57-76. Sinauer Associates, Inc., New York.
Amos, W., WJ Worthington, K Fullard, TM Burg, JP Croxall, D Bloch and T Coulson, 2001a. The influence of parental relatedness on reproductive success. Proceedings of the Royal Society of London Series B, 268, 2021-2027.
Amos, W., J W Wilmer and H Kokko, 2001b. Do female grey seals select genetically diverse mates? Animal Behaviour, 62, 157-164.
Anderson, MA., EC Cornish, SL Mau, EG Williams, R Hoggart et al., 1986. Cloning of cDNA for a stylar glycoprotein associated with expression of self-incompatibility in Nicoliana alata. Nature, 321, 38-44.
Avise, JC., 1994. Molecular Markers, Natural History and Evolution. Chapman & Hall, New York.
Bensch S., D Hasselquist and T von Schantz, 1994. Genetic similarity between parents predicts hatching failure: nonincestuous inbreeding in the great reed warbler. Evolution, 48, 317-326.
Blomqvist, D., M Andersson, C Kpper, IC Cuthill, J Kis, RB Lanctot, BK Sandercock, T Szkely, J Wallander and B Kempenaers, 2002. Genetic similarity between mates and extra-pair parentage in three species of shorebirds. Nature, 419, 613-615.
Blouin, MS., M Parsons and S Lotz, 1996. Use of microsatellite loci to classify individuals by relatedness. Molecular Ecology, 5, 393-402.
Brown, JL., 1997. A theory of mate choice based on heterozygosity. Behavioral Ecology, 8, 60-65.
Candolin, U., 2003. The use of multiple cues in mate choice. Biology Review, 78, 575-595.
Charmantier, A. and J Blondel, 2003. A Contrast in Extra-pair Paternity Levels on Mainland and Island Population of Mediterranean Blue Tits. Ethology, 109, 351-363.
Charmantier, A., P Blondel, P Perret and MM Lambrechts, 2004. Do extra-pair paternities provide genetic benefits for female blue tit Parus caeruleus? Journal of Avian Biology, 35, 524-532.
Coltman, DW., JG Pilkington, JA Smith and JM Pemberton, 1999. Parasite-mediated selection against inbred Soay sheep in a free-living island population. Evolution, 53,1259-1267.
Crook, JR. and WM Shields, 1985. Sexually selected infanticide by adult male barn swallows. Animal Behaviour, 33, 754-761.
Darwin, C., 1871. The Descent of Man and Selection in Relation to Sex. John Murray, London.
Ditchkoff, SS., RL Lochmiller, RE Masters, SR Hoofer, DB Van and A Ronald, 2001. Major-histocompatibility-complex-associated variation in secondary sexual traits of white-tailed deer (Odocoileus virginianus): evidence for good-genes advertisement. Evolution, 55,616-625.
Efron, B., 1979. Bootstrap methods: another look at the jackknife. Annals of statistics, 7, 1-26.
Eggert, F., W Muller-Ruchnoltz and R Ferstl, 1999. Olfactory cues associated with the major histocompatibility complex. Genetica, 104, 191-197.
Eimes, JA., PG Parker, JL Brown and ER Brown, 2004. Extrapair fertilization and genetic similarity of social mates in the Mexican jay. Behavioral Ecology, 16, 456-460.
Fleischer, RC., C Tarr and TK Pratt, 1994. Genetic structure and mating system in palila, an endangered Hawaiian honeycreeper, as assessed by DNA fingerprinting. Molecular Ecology, 3, 383-392.
Fleischer, RC., C Tarr, ES Morton, KD Derrickson and A Sangmeister, 1997. Mating system of the Dusky Antbird (Cercomacra tyrannina), a tropical passerine, as assessed by DNA fingerprinting. Condor, 99, 512-514.
Foester KD., A Johnsen, JT Lifjeld and B Kempenaers, 2003. Females increase offspring heterozygosity and fitness through extra-pair matings. Nature, 425, 714-717.
Fridolfsson, AK. and H Ellegren, 1999. A simple and universal method for molecular sexing of non-ratite birds. Journal of Avian Biology, 30, 116-121.
Gemmell, NJ. and S Akiyama, 1996. An efficient method for the extraction of DNA from vertebrate tissues. Trends in Genetics, 12, 338-339.
Hansson, B., S Bensch, D Hasselquist and M kesson, 2001. Microsatellite diversity predicts recruitment of sibling great reed warblers. Proceedings of the Royal Society of London Series B, 268, 1287-1291.
Hansson, B. and L Westerberg, 2002. On the correlation between heterizygosity and fitness in natural populations. Molecular Ecology, 11, 2467-2474.
Harrap, S., and D Quinn, 1995. Chickadess, Tits, Nuthatches & Treecreepers. Princeton University Press, Princeton, New Jersey.
Hughes, AL. and M Nei, 1988. Pattern of nucleotide substitution at major histocompatibility complex class I loci reveals overdominant selection. Nature, 335, 167-170.
Kempenaers, B., F Adriaensen, AJ van Noordwijk and AA Dhondt, 1996. Genetic similarity, inbreeding and hatching failure in blue tits: are unhatched eggs infertile? Proceedings of the Royal Society of London Series B, 263, 179-185.
Krokene, C., K Rigstad, M Dale and JT Lifjeld, 1998. The function of extrapair paternity in blue tits and great tits: good genes or fertility insurance? Behavioral Ecology, 9, 649-656.
Kruuk, LEB., J Slate, JM Pemberton, S Brotherstone, F Guinness and T Clutton-Brock, 2002. Antler size in red deer: heritability and selection but no evolution. Evolution, 56, 1683-1695.
Leech, DI., IR Hartley, IRK Stewart, SC Griffith and T Burke, 2001. No effect of parental quality or extrapair paternity on brood sex ratio in the blue tit (Parus caeruleus). Behavioral Ecology, 12, 674-680.
Leinders-Zufall, T., P Brennan, P Widmayer, PS Chandramani, A Maul-Pavicic, J Martina, XH Li, H Breer, F Zufall and T Boehm, 2004. MHC Class I Peptides as Chemosensory Signals in the Vomeronasal Organ. Science, 306, 1033-1037.
Lubjuhn, T., S Strohbach, J Bruen, T Gerken and JT Epplen, 1999a. Extra-pair paternity in great tits(Parus major): a long term study. Behaviour, 136, 1157-1172.
Lubjuhn, T., T Gerken , J Bruen and JT Epplen, 1999b. High frequency of extra-pair paternity in the Coal Tit. Journal of Avian Biology, 30,229-233.
Marshall, TC., J Slate, LEB Kruuk and JM Pemberton, 1998. Statistical confidence for likelihood-base paternity inference in natural populations. Molecular Ecology, 7, 639-655.
Marshall, RC., KL Buchanan and CK Catchpole, 2003. Sexual selection and individual genetic diversity in a song bird. Proceedings of the Royal Society of London Series B. B (Suppl.), 270, S248-S250.
May, G. and E Matzke, 1995. Recombination and variation at the a mating-type of Coprinus-cinereus. Molecular Biology and Evolution, 12, 794-802.
Melland, RR. 2000. The genetic mating system and population structure of the Green-rumped Parrotlet. PhD Dissertation, Univ. of North Dakota, Grand Forks, ND.
Mitton, JB., 1993. Theory and data pertinent to the relationship between heterozygosity and fitness. In The natural history of inbreeding and outbreeding: theoretical and empirical perspectives (ed. N. W. Thornhill), 17-41. University of Chicago Press.
Mitton, JB., 1994. Molecular approaches to population biology. Annual Review of Ecology and Systematics, 25, 45-69.
Mller, AP. and JV Briskie, 1995. Extrapair paternity, sperm competition and the evolution of testis size in birds. Behavior Ecology and Sociobiology, 36, 357-365.
Pampus, M., KH Schmidt and W Wiltschko, 2005. Pair bond and breeding success in Blue Tits Parus caeruleus and Great Tits Parus major. Monias benschi.-Ibis, 147, 92-108.
Queller, DC. and KF Goodnight, 1989. Estimating relatedness using genetic markers. Evolution, 43, 258-275.
Roberts, SC. and LM Gosling, 2003. Genetic similarity and quality interact in mate choice decisions by female mice. Nature Genetics, 35, 103-106.
Robertson, BC. 1996. The mating system of the Capricorn silvereye. Ph.D. Dissertation. University of Queensland, St. Lucia, Brisbane.
Schmoll, T., V Dietrich, W Winkel, JT Epplen and T Lubjuhn, 2003. Long-term fitness consequences of female extra-pair matings in a socially monogamous. Proceedings of the Royal Society of London Series B, 270, 259-264.
Schmoll, T., A Quellmalz, V Dietrich, W Winkel, JT Epplen and T Lubjuhn, 2005. Genetic similarity between pair mates is not related to extrapair paternity in the socially monogamous coal tit. Animal Behaviour, 69, 1013-1022.
Seddon, N., JA Tobias and SHM Butchart, 2003. Group-living, breeding behaviour and territoriality in the subdesert mesite. Monias benschi.-Ibis, 145, 277-294.
Slagsvold, T. and T Drevon, 1999. Female pied flycatchers trade between male quality and mating status in mate choice. Proceedings of the Royal Society of London Series B, 266, 917-921.
Stutchbury, BJ. and ES Morton, 1995. The effect of breeding synchrony on extra-pair mating system in songbirds. Behaviour, 132, 675-690.
Stutchbury, BJM and ES Morton, 2001. Behavioral Ecology of Tropical Birds. Academic Press, San Diego.
Tregenza, T. and N Wedell, 2000. Genetic compatibility, mate choice and patterns of parentage. Molecular Ecology, 9, 1013-1027.
Tregenza, T. and N Wedell, 2002. Polyandrous females avoid costs of inbreeding. Nature, 415, 71-73.
Trivers, RL. 1972. Parental investment and sexual selection. In Sexual selection and the descent of man (ed. B. Campbell), 136-179. Chicago, IL:Aldine.
Wang, MT., YC Hsu, CT Yao and SH Li, 2005. Isolation and characterization of 12 tetranucleotide repeat microsatellite loci from the green-backed tit (Parus monticolus). Molecular Ecology Notes, 5, 439-442.
Zeh, JA. and DW Zeh, 1996. The evolution of polyandry I: intragenomic conflict and genetic incompatibility. Proceedings of the Royal Society of London Series B, 263, 1711-1717.