研究生: |
陳盈如 Ying-Ru Chen |
---|---|
論文名稱: |
翠斑草蜥個體遺傳多樣性與體外寄生蟲及形質對稱性的相關性 Correlation between individual genetic diversity, ectoparasite load, and individual symmetry in Takydromus viridipunctatus |
指導教授: |
林思民
Lin, Si-Min |
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: | 2011 |
畢業學年度: | 99 |
語文別: | 英文 |
論文頁數: | 45 |
中文關鍵詞: | 不對稱性 、異型合子歧異度 、異型合子優勢假說 、微衛星基因座 、翠斑草蜥 、鱗片 |
英文關鍵詞: | asymmetry, heterozygosity, heterozygote advantage hypothesis, microsatellites, Takydromus viridipunctatus, scales |
論文種類: | 學術論文 |
相關次數: | 點閱:158 下載:11 |
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一個多倍體生物體內其各套染色體彼此間基因的異同,稱之為個體的遺傳多樣性(individual genetic diversity),而個體的遺傳多樣性與其適存度(fitness)之間的關係一直都是遺傳學家感興趣的議題。目前為止在遺傳多樣性的研究中一般會以個體的異型合子歧異度(heterozygosity)做為遺傳多樣性的指標,而所謂異型合子優勢假說(heterozygote advantage hypothesis),即指異型合子的個體相較於同型合子(homozygous)的個體會有較高的適存度。我的研究是利用一整批同時同地採獲的翠斑草蜥(Takydromus viridipunctatus),選用8組微衛星基因座作為異型合子歧異度的遺傳指標,而使用體外寄生蟲的數量與左右兩側的鱗片對稱性做為該個體的適存度指標,來檢測翠斑草蜥遺傳多樣性與適存值特徵之間的關係。如果符合異型合子優勢假說,我預期(1)異型合子歧異度愈高的個體,體外寄生蟲的承載量越少;(2)異型合子歧異度愈高的個體,其左右鱗片越對稱。結果顯示,雄性翠斑草蜥的異型合子歧異度與其體外寄生蟲的承載量呈現顯著的負相關,並且其頭部鱗片越對稱;而雌性則無此現象。目前針對爬行動物異型合子優勢假說的探討仍然極為有限,而本研究可能是目前所知唯一呈現統計顯著的案例。
Evolutionists have been interested in correlation between individual genetic diversity and fitness for decades. The heterozygote advantage hypothesis presumes that heterozygous individuals will have higher fitness than homozygous individuals. Previous studies on heterozygote advantage hypothesis usually focus on birds, mammals and fishes, but similar studies are relatively rare in reptiles. In this study, we attempt to test this hypothesis in the green spotted grass lizard (Takydromus viridipunctatus) endemic to Taiwan. I evaluate individual heterozygosity of 140 grass lizards collected at the same time from one single location by using 8 microsatellite loci, and investigate the correlations between mean d2 and (1) ectoparasite load, and (2) individual asymmetry. My results demonstrated that heterozygosity is negatively correlated with ectoparasite loads and head asymmetry in male lizards, but the correlations in females are not significant. This phenomenon indicates that male lizards are probably facing higher risks of parasitism in summers, and individual hererozygosity might provide higher fitness in courtship success and survivorship in breeding seasons.
Acevedo-Whitehouse K, Spraker TR, Lyons E, et al. (2006) Contrasting effects of heterozygosity on survival and hookworm resistance in California sea lion pups. Molecular Ecology 15, 1973-1982.
Chapman JR, Nakagawa S, Coltman DW, Slate J, Sheldon BC (2009) A quantitative review of heterozygosity-fitness correlations in animal populations. Molecular Ecology 18, 2746-2765.
Coltman DW, Slate J (2003) Microsatellite measures of inbreeding: A meta-analysis. Evolution 57, 971-983.
Curtis JL, Baird TA (2008) Within-population Variation in Free-Living Adult and Ectoparasitic Larval Trombiculid Mites on Collared Lizards. Herpetologica 64, 189-199.
Da Silva A, Luikart G, Yoccoz NG, Cohas A, Allaine D (2006) Genetic diversity-fitness correlation revealed by microsatellite analyses in European alpine marmots (Marmota marmota). Conservation Genetics 7, 371-382.
Danzmann RG, Ferguson MM, Allendorf FW (1988) Heterozygosity and components of fitness in a strain of rainbow trout. Biological Journal of the Linnean Society 33, 285-304.
David P (1998) Heterozygosity-fitness correlations: new perspectives on old problems. Heredity 80, 531-537.
Excoffier L, Lischer HEL (2010) Arlequin suite ver 3.5: a new series of programs to perform population genetics analyses under Linux and Windows. Molecular Ecology Resources 10, 564-567.
Foerster K, Delhey K, Johnsen A, Lifjeld JT, Kempenaers B (2003) Females increase offspring heterozygosity and fitness through extra-pair matings. Nature 425, 714-717.
Hansson B, Westerberg L (2002) On the correlation between heterozygosity and fitness in natural populations. Molecular Ecology 11, 2467-2474.
Hawley DM, Sydenstricker KV, Kollias GV, Dhondt AA (2005) Genetic diversity predicts pathogen resistance and cell-mediated immunocompetence in house finches. Biology Letters 1, 326-329.
Hoffman JI, Forcada J, Amos W (2006) No relationship between microsatellite variation and neonatal fitness in Antarctic fur seals, Arctocephalus gazella. Molecular Ecology 15, 1995-2005.
Kretzmann M, Mentzer L, DiGiovanni R, Leslie MS, Amato G (2006) Microsatellite diversity and fitness in stranded juvenile harp seals (Phoca groenlandica). Journal of Heredity 97, 555-560.
LeBas NR (2002) Mate choice, genetic incompatibility, and outbreeding in the ornate dragon lizard, Ctenophorus ornatus. Evolution 56, 371-377.
Ledig FT (1986) Heterozygosity, heterosis, and fitness in outbreeding plants. In: conservation Biology (the science of scarcity and diversity) (ed. Soulé ME), pp. 77-104, Sinauer, New York.
Lerner IM (1954) Genetic Homeostasis Oliver and Boyd, Ediinburgh.
Lesbarreres D, Primmer CR, Laurila A, Merila J (2005) Environmental and population dependency of genetic variability-fitness correlations in Rana temporaria. Molecular Ecology 14, 311-323.
Lopez P, Munoz A, Martin J (2002) Symmetry, male dominance and female mate preferences in the Iberian rock lizard, Lacerta monticola. Behavioral Ecology and Sociobiology 52, 342-347.
Luikart G, Pilgrim K, Visty J, Ezenwa VO, Schwartz MK (2008) Candidate gene microsatellite variation is associated with parasitism in wild bighorn sheep. Biology Letters 4, 228-231.
MacDougall-Shackleton EA, Derryberry EP, Foufopoulos J, Dobson AP, Hahn TP (2005) Parasite-mediated heterozygote advantage in an outbred songbird population. Biology Letters 1, 105-107.
Martin J, Lopez P (2000) Chemoreception, symmetry and mate choice in lizards. Proceedings of the Royal Society of London Series B-Biological Sciences 267, 1265-1269.
Martin J, Lopez P (2006) Vitamin D supplementation increases the attractiveness of males' scent for female Iberian rock lizards. Proceedings of the Royal Society B-Biological Sciences 273, 2619-2624.
Miller HC, Moore JA, Nelson NJ, Daugherty CH (2009) Influence of major histocompatibility complex genotype on mating success in a free-ranging reptile population. Proceedings of the Royal Society B-Biological Sciences 276, 1695-1704.
Mitton JB, Grant MC (1984) Associations among protein heterozygosity, growth rate, and developmental homeostasis. Annual Review of Ecology and Systematics 15, 479-499.
Moore JA, Daugherty CH, Nelson NJ (2009) Large Male Advantage: Phenotypic and Genetic Correlates of Territoriality in Tuatara. Journal of Herpetology 43, 570-578.
Pujolar JM, Maes GE, Vancoillie C, Volckaert FAM (2005) Growth rate correlates to individual heterozygosity in the european eel, Anguilla anguilla L. Evolution 59, 189-199.
Rijks JM, Hoffman JI, Kuiken T, Osterhaus A, Amos W (2008) Heterozygosity and lungworm burden in harbour seals (Phoca vitulina). Heredity 100, 587-593.
Rossiter SJ, Jones G, Ransome RD, Barratt EM (2001) Outbreeding increases offspring survival in wild greater horseshoe bats (Rhinolophus ferrumequinum). Proceedings of the Royal Society of London Series B-Biological Sciences 268, 1055-1061.
Seddon N, Amos W, Mulder RA, Tobias JA (2004) Male heterozygosity predicts territory size, song structure and reproductive success in a cooperatively breeding bird. Proceedings of the Royal Society of London Series B-Biological Sciences 271, 1823-1829.
Shine R, Langkilde T, Wall M, Mason RT (2005) The fitness correlates of scalation asymmetry in garter snakes Thamnophis sirtalis parietalis. Functional Ecology 19, 306-314.
Shull GH (1948) WHAT IS "HETEROSIS"? Genetics 33, 439-446.
Smith AL, Fenner AL, Bull CM, Gardner MG (2009) Genotypes and nematode infestations in an endangered lizard, Tiliqua adelaidensis. Applied Herpetology 6, 300-305.
Sperry JH, Butler LK, Romero LM, Weatherhead PJ (2009) Effects of parasitic infection and radio-transmitters on condition, hematological characteristics and corticosterone concentrations in Texas ratsnakes. Journal of Zoology 278, 100-107.
Ujvari B, Madsen T (2006) Age, parasites, and condition affect humoral immune response in tropical pythons. Behavioral Ecology 17, 20-24.
Zachos FE, Hartl GB, Suchentrunk F (2007) Fluctuating asymmetry and genetic variability in the roe deer (Capreolus capreolus): a test of the developmental stability hypothesis in mammals using neutral molecular markers. Heredity 98, 392-400.
Zouros E (1987) On the relation between heterozygosity and heterosis: an evaluation of the evidence from marine mollusks. Isozymes 15, 255-270.
王昭均。2006。台灣東部地區草蜥屬雜交現象之偵測。國立台灣師範大學生命學系碩士論文。
林展蔚、陳盈蓉、李佩珍、林思民。2011。翠斑草蜥的生活史與存活率研究:一萬筆捕捉資料告訴我們什麼?2011年動物行為、生態暨生物及環境教育研討會摘要集。25頁。