[1]Guilford P,Prakash S,Zhu J M,et al.Microsatellites in Malus×domestica(apple):abundance,polymorphism and cultivar identification[J].Ther Appl Genet,1997,94:249-254. [2]Gianfranceschi L,Seglias N,Tarchini R,et al.Simple sequence repeats for the genetic analysis of apple[J].Theor Appl Genet,1998,96:1069-1076. [3]Liebhard R,Gianfranceschi L,Koller B,et al.Development and characterization of 140 new microsatellites in apple (Malus×domestica Borkh.)Mol[J].Breed,2002,10:217-241. [4]Yamamoto T,Kimura T,Sawamura Y,et al.Simple sequence repeats for genetic analysis in pear[J].Euphytica,2002,124:129-137. [5]Yamamoto T,Kimura T,Shoda M,et al.Development of microsatellite markers in Japanese pear (Pyrus pyrifolia Nakai)[J].Molecular Ecology Notes,2002(2):14-16. [6]Yamamoto T,Kimura T,Shoda M,et al.Genetic linkage maps constructed by using an interspecific cross between Japanese and European pears [J].Theor Appl Genet,2002,106:9-18. [7]Sawamura Y,Toshihiro Saito,Norio Takada,et al.Identification of Parentage of Japanese Pear ‘Housui’[J].Japan Soc Hort Sci,2004,73(6):511-518. [8]Inoue E,Matsuki Y,Anzai H,et al.Isolation and characterization of microsatellite markers in Japanese pear (Pyrus pyrifolia Nakai) [J].Molecular Ecology Notes,2007(7):445-447. [9]Dickson E E,Arumuganathan K,Kresovich S,et al.Nuclear DNA content variation within the Rosaceae[J].Am J Bot,1992,79:1081-1086. [10]Fernandez F,Harvey N G,James C M.Isolation and characterization of polymorphic microsatellite markers from European pear(Pyrus communis L.) [J].Molecular Ecology Notes,2006,6(4):1039-1041. [11]Yamamoto T,Sawamura T,Kimura T,et al.Microsatellite markers of Pyrus spp.:Sequence similarity and polymorphism between pear and apple identified by apple SSR[C].Plant and Animal Genome VIII Conference.Town and Country Hotel,San Diego,CA,2000. [12]Yamamoto T,Kimura T,Sawamura Y,et al.SSRs isolated from apple can identify polymorphism and genetic diversity in pear[J].Theor Appl Genet,2001,102:865-870. [13]Yamamoto T,Kimura T,Satito T,et al.Genetic Linkage Maps of Japanese and European pears aligned to the apple consensus map.Acta Horticulturae,International Society for Horticultural Science(ISHS) [J].Leuven Belgium,2004,663(1):51-56. [14]Bouvier L,Guerif P,Djulbic M,et al.Chromosome doubling of pear haploid plants and homozygosity assessment using isozyme and microsatellite markers[J].Euphytica,2002,123:255-262. [15]Terakami S,Shoda M,Adachi Y,et al.Genetic mapping of the pear scab resistance gene Vnk of Japanese pear cultivar Kinchaku[J].Theoretical and Applied Genetics,2006,113:743-752. [16]易芍文,李进斌,周小罡,等.云南省梨属植物资源的微卫星分析研究[J].西南农业学报,2004,17(2):192-196. [17]Hemmat M,Weeden N F,Brown S K,et al.Mapping and evaluation of Malus×domestica microsatellites in apple and pear[J].Amer Hort Sci,2003,128:452-620. [18]Maharaj R, van Dyk M M,Rees D J G,et al.Development of microsatellite markers for marker-assisted breeding in pears (Pyrus?spp.)[C].Acta Horticulturae,International Society for Horticultural Science (ISHS),2005:307-313. [19]Bassil N V,Hummer K E,Postman J D.Microsatellites are used to examine apple and pear identities and genetic relationships[J].Hort Science,2006,41(4):993. [20]Booi S,van Dyk M M,du Preez M G,et al.Molecular typing of red and green phenopypes of ‘BON ROUGE’ pear trees,with the use of microsatellites,ISHS[C].Acta Horticulturae,IX International Pear Symposium,2005,671:293-297. [21]Wunsch A,Hormaza J I.Characterization of variability and genetic similarity of European pear using microsatellite loci developed in apple[J].Scientia Horticulturae,2007,113:37-43. [22]Pierantoni L,Cho K H,Shin I S,et al.Characterisation and transferability of apple SSRs to two European pear F1 populations[J].Theor Appl Genet,2004,109:1519-1524. [23]王彩虹,田义轲,赵静.来自苹果的SSRs在蔷薇科植物资源上的通用性分析[J].园艺学报,2005,32(3):500-502. [24]Bao L,Chen K S,Zhang D,et al.Genetic divesity and similarity of pear(Pyrus L.)cultivars native to East Asia revealed by SSR(simple sequence repeat) markers[J].Genet Resour Crop Evol,2007,54(5):959-971. [25]曹玉芬,刘凤之,高源,等.梨栽培品种SSR鉴定及遗传多样性[J].园艺学报,2007,34(2):305-310. [26]江先甫,初庆刚,张长胜.中国梨属植物的分类和演化[J].莱阳农学院学报,1992,9(1):18-21. [27]Teng Y,Tanabe K,Tamura F,et al.Genetic relationships of pear cultivars in Xinjiang,China as measured by RAPD markers[J].Journal of Horticultural Science and Biotechnology,2001,76:771-779. [28]Teng Y,Tanabe K,Tamura F,et al.Genetic relationships of Pyrus species and cultivars native to East Asia revealed by randomly amplified polymorphic DNA markers[J].J Am Soc Hortic Sci,2002,127:262-270. [29]Teng Y W,Tanabe K.Reconsideration on the origin of cultivated pears native to East Asia.4 International Symposium of Taxonomy and Nomenclature of Cultivated Plants[J].Acta Horticuhurae,2004,634:175-182. [30]Kimura T,Shi Y Z,Shoda M,et al.Identification of Asian pear varieties by SSR analysis [J].Breeding Science,2002,52:115-121. [31]林伯年,沈德绪.利用过氧化物同功酶谱分析梨属植物种质特性及亲缘关系[J].浙江大学学报,1981,9(3):235-243. [32]曲柏宏,金春兰,陈艳秋,等.梨属种质资源的RAPD分析[J].园艺学报,2001,28(5):460-462. [33]贾彦利,田义轲,王彩虹,等.梨品种资源遗传差异的RAPD分析[J].果树学报,2007,24(4):525-528. [34]Lin S,Fang C,Song W,et a1.AFLP molecular markers of 10 species of T1 in China[J].Acta Horticuhurae,2002,587:233-236. [35]黄礼森,李树玲,傅仓生,等.中国梨属植物花粉形态的比较观察[J].园艺学报,1993,20(1):19-24. [36]李秀根,杨健.花粉形态数量化分析在中国梨属植物起源,演化和分类中的应用[J].果树学报,2002,19(3):145-148. [37]沈玉英,滕元文,田边贤二.部分中国砂梨和日本梨的RAPD分析[J].园艺学报,2006,33(3):621-624. [38]滕元文,柴明良,李秀根.梨属植物分类的历史回顾及新进展[J].果树学报,2004,21(3):252-257. [39]张绍铃,Hiratsuka Shin,徐国华,等.梨自交不亲和及其亲和突变品种花柱内S4(S4SM)基因的表达与作用比较[J].植物学报,2001,43(11):1172-1178. [40]徐义流,张绍铃.梨配子体型自交不亲和性及其分子机理[J].果树学报,2003,20(1):59-63. [41]Kimura T,Sawamura Y,Kotobuki K,et al.Parentage analysis in pear cultivars characterized by SSR markers.[J].Japan Soc Hort Sci,2003,72:182-189.