分子植物育种 1454 M olecu lar P lntB reed Zhang Y P, kyle M, anagnostou K Z itter t..1997 a gronom ic im portance and analysis of their stabilities using Screen ing m eln Cucumis melo L. forresistance to gum m y SSSLs in rice, Zhongguo N ongye K exue (Scientia a gricuh tem b light in the greenhouse and fiel, Hortscience A Pub- tura s inica),40③):447-456赵芳明,朱海涛,丁效华,曾瑞 lication of the A m erican Society for H orticu ltural Science 珍,张泽民,李文涛,张桂权,2007,基于SSSL的水稻重要 320):117-21 性状QTL的鉴定及稳定性分析,中国农业科学,40): Zhang Z.Y., C hen X, Zhang C, x in Z Y, and Chen X.M., 2002, 447-56) Selecting the pyram ids of pow dery m ildew resistance genes Zhao T L, Fan Y L, W ang YJ, Jiang D. LiM R, Zhai W. x Pm4b, PM13 and Pm2I in w heat assisted by m olecular and xia Z.H., 2015, Study on pyram ing bacterial blight m arker, Zhongguo n ongye K exue Scientia a gricultralSini resistance gene Xa21 and Xa23 into rice, FenziZhwu Yu a,35():789-93(增艳,陈孝,张超,辛志勇,陈新民, zhong M olecular P lantB reeding),13):513-517赵天龙 2002,分子标记选择小麦抗白粉病基因Pm4b,PM3和 范玉龙,王艺洁,姜达,李明容,翟文学,夏志辉,2015,白 Pm2/聚合体,中国农业科学,350):789793) 叶枯病抗病基因Xa21与Xa23的聚合育种研究,分子植 Zhao F.M., Li G F,, Zhu H.T. d ing x H, Zeng r z, zhang z. 物育种,136):513517 M. LiW.T, and Zhang G Q, 2008, U conditional and con- Zhu M. T, Sun Y L, Zheng S, Zhang X L,, W ang T.T. Ye Z.B. ditional QTL m apping by using single segm ent substitu tion and LiH. X. 2010, P yram id ing disease resistance genes by lines for tiller num ber at various stages in rice (Oryza sativa m olecu lar m arkerassisted selection in tom ato, Y uanyixue L ) Zhongguo n ongye K exue Scientia A gricultura Sinica), Bao cta H orticulturae Snica),379):1416-1422侏朱明涛, 41②):32230瞇赵芳明,刘桂富,朱海涛,丁效华,曾瑞珍, 孙亚林,郑莎,张晓黎,王涛涛,叶志彪,李汉霞,2010,分 张泽民,李文涛,张桂权,2008,用单片段代换系对不同时 子标记辅助聚合番茄抗病基因育种,园艺学报,37) 期水稻分蘖数QTL的非条件和条件定位,中国农业科学 1416-1422) 412):322330) Zhu x n, Chen Y, F CaoT, LiC. L. Ren h.L..Yu L and bi Zhao F.M., Zhang G. Q, Zeng R.Z., Y ang Z L, L ing Y H sang Y.H., 2008, Pyram iding of resistance genes to stripe rust in X C, and He G.H., 2011, A nalysis of epistatic and additive w heat and m olecular m arkers of resistance gene to CY32 ffects ofQ Tls for grain shape using sing le segm ent substi- X bein onglin K eid axue X uebao (Joumal ofN orthw estA tution lines in rice (Oryza sativa L ) Zuow uxue B ao (A cta F University N ational Science Edition)), 366):187-191 a gronom ica Sinica),37③):469-76赵芳明,张桂权,曾瑞 (朱晓娜,陈耀锋,曹婷,李春莲,任慧莉,于玲,白延红, 珍,杨正林,凌英华,桑贤春,何光华,2011,基于单片段代 2008,小麦抗条锈基因聚合及抗条中32号基因分子标 换系的水稻粒型QTL加性及上位性效应分析,作物学报 记筛选,西北农林科技大学学报自然科学版),36(3) 37):469476) 187-191) Zhao F.M., Zhang G Q, Zeng R z, Y nag Z.L., Ling YH Sang Zhu Z,,Xu x, C ao B, Chen C, Chen Q,x ang C, Chen G X C, and He G H 2012, Epistatic and additive effects of and Lei J, 2015, Pyram iing of A EDTIADG ll and Q TLs for y ieH-related traits using sing le segm ent substitu Cry2A a2 into pepper Capsicum annuum L )enhances dro ion lines of rice (Oryza sativa L ) Zuow uxue Bao (A cta ught to lerance and insect resistance w ithout yield decrease, A gronom ica Sinica),38a1):2007-2014赵芳明,张桂权, PlantcelIt issue0 rgan Cult,120():919932 曾瑞珍,杨正林,凌英华,桑贤春,何光华,2012,利用单片 Zhuang jY,FanY.Z.,RaoZ.M,WuJL,XiY.W, and zheng 段代换系研究水稻产量相关性状QTL加性及上位性效 L, 2002, A nalysis on additive effects and additive-by ad- 应,作物学报,3801):20072014) dative epistatic effects of Q TLs for yiel traits in a recom br Zhao F.M., Zhu H.T., d ing X H, Zeng r.Z., Zhang Z.M., LiW nt inbred line popu lation of rice, Theor. A ppl G enet, 105 T. and Zhang g. Q, 2007, D etection ofQ Tls for traits of 8):1137-145 21994-2017ChinaAcademicJournalElectronicPublishingHouse.Allrightsreservedhttp:/www.cnki.net分子植物育种 Molecular Plant Breeding Zhang Y.P., Kyle M., Anagnostou K., and Zitter T.A., 1997, Screening melon (Cucumis melo L.) for resistance to gummy stem blight in the greenhouse and field, Hortscience A Pub￾lication of the American Society for Horticultural Science, 32(1): 117-121 Zhang Z.Y., Chen X., Zhang C., Xin Z.Y., and Chen X.M., 2002, Selecting the pyramids of powdery mildew resistance genes Pm4b, PM13 and Pm21 in wheat assisted by molecular marker, Zhongguo Nongye Kexue (Scientia Agricultural Sini￾ca), 35(7): 789-793 (张增艳, 陈孝, 张超, 辛志勇, 陈新民, 2002, 分子标记选择小麦抗白粉病基因 Pm4b, PM13 和 Pm21 聚合体, 中国农业科学, 35(7): 789-793) Zhao F.M., Liu G.F., Zhu H.T., Ding X.H., Zeng R.Z., Zhang Z. M., Li W.T., and Zhang G.Q., 2008, Unconditional and con￾ditional QTL mapping by using single segment substitution lines for tiller number at various stages in rice (Oryza sativa L.), Zhongguo Nongye Kexue (Scientia Agricultura Sinica), 41(2): 322-330 (赵芳明, 刘桂富, 朱海涛, 丁效华, 曾瑞珍, 张泽民, 李文涛, 张桂权, 2008, 用单片段代换系对不同时 期水稻分蘖数 QTL 的非条件和条件定位, 中国农业科学, 41(2): 322-330) Zhao F.M., Zhang G.Q., Zeng R.Z., Yang Z.L., Ling Y.H., Sang X.C., and He G.H., 2011, Analysis of epistatic and additive effects of QTLs for grain shape using single segment substi￾tution lines in rice (Oryza sativa L.), Zuowuxue Bao (Acta Agronomica Sinica), 37(3): 469-476 (赵芳明, 张桂权, 曾瑞 珍, 杨正林, 凌英华, 桑贤春, 何光华, 2011, 基于单片段代 换系的水稻粒型 QTL 加性及上位性效应分析, 作物学报, 37(3): 469-476) Zhao F.M., Zhang G.Q., Zeng R.Z., Ynag Z.L., Ling Y.H., Sang X.C., and He G.H., 2012, Epistatic and additive effects of QTLs for yield-related traits using single segment substitu￾tion lines of rice (Oryza sativa L.), Zuowuxue Bao (Acta Agronomica Sinica), 38(11): 2007-2014 (赵芳明, 张桂权, 曾瑞珍, 杨正林, 凌英华, 桑贤春, 何光华, 2012, 利用单片 段代换系研究水稻产量相关性状 QTL 加性及上位性效 应, 作物学报, 38(11): 2007-2014) Zhao F.M., Zhu H.T., Ding X.H., Zeng R.Z., Zhang Z.M., Li W. T., and Zhang G.Q., 2007, Detection of QTLs for traits of agronomic importance and analysis of their stabilities using SSSLs in rice, Zhongguo Nongye Kexue (Scientia Agricul￾tura Sinica), 40(3): 447-456 (赵芳明, 朱海涛, 丁效华, 曾瑞 珍, 张泽民, 李文涛, 张桂权, 2007, 基于 SSSL 的水稻重要 性状 QTL 的鉴定及稳定性分析, 中国农业科学, 40(3): 447-456) Zhao T.L., Fan Y.L., Wang Y.J., Jiang D., Li M.R., Zhai W.X., and Xia Z.H., 2015, Study on pyramiding bacterial blight resistance gene Xa21 and Xa23 into rice, Fenzi Zhiwu Yu￾zhong (Molecular Plant Breeding), 13(3): 513-517 (赵天龙, 范玉龙, 王艺洁, 姜达, 李明容, 翟文学, 夏志辉, 2015, 白 叶枯病抗病基因 Xa21 与 Xa23 的聚合育种研究, 分子植 物育种, 13(3): 513-517) Zhu M.T., Sun Y.L., Zheng S., Zhang X.L., Wang T.T., Ye Z.B., and Li H.X., 2010, Pyramiding disease resistance genes by molecular marker-assisted selection in tomato, Yuanyixue Bao (Acta Horticulturae Sinica), 37(9): 1416-1422 (朱明涛, 孙亚林, 郑莎, 张晓黎, 王涛涛, 叶志彪, 李汉霞, 2010, 分 子标记辅助聚合番茄抗病基因育种, 园艺学报, 37(9): 1416-1422) Zhu X.N., Chen Y.F., Cao T., Li C.L., Ren H.L., Yu L., and Bai Y.H., 2008, Pyramiding of resistance genes to stripe rust in wheat and molecular markers of resistance gene to CY32, Xibei Nonglin Keji Daxue Xuebao (Journal of Northwest A & F University (National Science Edition)), 36(3): 187-191 (朱晓娜, 陈耀锋, 曹婷, 李春莲, 任慧莉, 于玲, 白延红, 2008, 小麦抗条锈基因聚合及抗条中 32 号基因分子标 记筛选, 西北农林科技大学学报(自然科学版), 36(3): 187-191) Zhu Z., Xu X., Cao B., Chen C., Chen Q., Xiang C., Chen G., and Lei J., 2015, Pyramiding of AtEDT1/HDG11 and Cry2Aa2 into pepper (Capsicum annuum L.) enhances dro￾ught tolerance and insect resistance without yield decrease, Plant Cell Tissue Organ Cult., 120(3): 919-932 Zhuang J.Y., Fan Y.Z., Rao Z.M., Wu J.L., Xia Y.W., and Zheng K.L., 2002, Analysis on additive effects and additive-by-ad￾ditive epistatic effects of QTLs for yield traits in a recombi￾nant inbred line population of rice, Theor. 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