美国水稻品种温度钝感特性评价和遗传多样性分析
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摘要
重庆地区的恢复系遗传背景相对单一,且高温多雾低光照的夏季气候对水稻生产极为不利,导致重庆地区的水稻品质整体表现较差;美国稻具有米质优、耐肥抗倒性强、成穗率极高、对高光强的适应性强、米质对温度钝感等优点,同时,美国稻对籼稻和粳稻都有一定的亲和性。所以我们新引进33份美国稻资源,通过分期播种方法评价其对温度钝感性状,利用野败型不育系缙1A对其恢保关系进行了测定,利用SSR分子标记分析了美国稻与我国骨干恢复系和保持系间的遗传多样性,希望筛选出适宜类似重庆高温的优良亲本材料,为重庆等生态区的优良“三系”选配和优质、高产新品种的选育奠定基础。结果如下:
1.温度钝感性评价
对33份美国稻品种的农艺性状和品质性状的钝感值与13份国内水稻材料的钝感值进行评价,并将其中表现最为钝感的14份优质品种与国内5份相对较钝感的材料作品质性状进行对比。研究结果表明:美国水稻品种在垩白率、糙米率、精米率上表现钝感,垩白率尤其钝感,筛选出C94-303,Lemnot,SB01-1692,SB01-1534,C96-722,Katy,SB01-1530,SB01-5529,C93-134,Maybelle,Kaybonnet,SB01-1536,C94-416,C93-143-1对温度表现钝感最好的品种。
2.恢保能力测定
利用野败型不育系缙1A对33份美国稻的恢保关系进行了测定,观测了F_1的小穗育性。结果表明:在美国稻种中存在着对野败雄性不育育性恢复程度不同的品种,鉴定出了2份具有高恢复力的材料,Urn071(84.53%)和C93-145(73.19%);6份具有保持能力的材料,C94-303(0.00%)、25079-80(0.46%)、C93-143(0.62%)、SB01-1536(2.36%)、25127-128(3.05%)和C96-718(3.34%)。这些材料可为在重庆选育优良“三系”杂交稻亲本提供优良资源。
3.遗传多样性分析
从88对平均分布于水稻12条染色体的SSR引物中筛选出24对用于33份美国稻和13份中国稻的多态性分析,24对引物在46份材料中共检测到189条带,其中多态性带177条,多态率高达93.65%。UPGMA聚类分析把46份材料分为两大类,28份美国稻组成Ⅰ类,另5份美国稻与13份中国稻组成Ⅱ类:Ⅱ类中,美国稻与中国稻分别聚为Ⅱ-1和Ⅱ-2两个
In general, the rice showed relatively worser quality in Chongqing, because of the simple genetic diversity of restoring lines and disadvantageous condition of climate such as high temperature, excessive fog and lower intensity of illumination. American rice took on a series of advantageous characters in quality, ability of tolerance for fertilizer, resistance to lodge, effective spike ratio, adaptability to strong illumilation, insensitive against temperature, cross-compatibility to both Indica rice and Japonica rice. In this research, we introduced into 33 American rice, evaluated the insensitive against temperature in serial seedtime, and determined the relationship of restoring and retaining lines by crossing with Jin 1A (WA type CMS line). We analyzed the genetic diversity among the America rice and China rice, obtained excellent parents adapting to the condition of high temperature climate such as Chongqing, and laid a foundation of breeding the variety of fine quality and high yield.
1. Evaluation on temperature insensitivity in the American rice and Chinese rice
We have evaluated the IV (insensitivity value) of characters of agronomy and quality in between 33 American and 13 Chinese rice breeds, and contrasted the quality characters in between the most insensitive 14 American and 5 Chinese rice breeds. The results show that these American rice breeds are insensitive in the rate of chalk, brown rice and head rice, especially in chalk rate. And basing on the results we have selected 14 American rice which are the most insensitive against temperature such as C94-403, Lemont, SB01-1692, SB01-1534, C96-722, Katy, SB01-1530, SB01-5529, C93-134, Maybelle, Kaybonnet, SB01-1536, C94-416, and C93-143-1.
2. Identification on ability of restoring and maintaining in the American rice
F1 fertility of crosses between 33 varieties collected from America and Jin 1A (WA type CMS line) was tested. The results show the differences in fertility restoring degree are present in rice in
1.温度钝感性评价
对33份美国稻品种的农艺性状和品质性状的钝感值与13份国内水稻材料的钝感值进行评价,并将其中表现最为钝感的14份优质品种与国内5份相对较钝感的材料作品质性状进行对比。研究结果表明:美国水稻品种在垩白率、糙米率、精米率上表现钝感,垩白率尤其钝感,筛选出C94-303,Lemnot,SB01-1692,SB01-1534,C96-722,Katy,SB01-1530,SB01-5529,C93-134,Maybelle,Kaybonnet,SB01-1536,C94-416,C93-143-1对温度表现钝感最好的品种。
2.恢保能力测定
利用野败型不育系缙1A对33份美国稻的恢保关系进行了测定,观测了F_1的小穗育性。结果表明:在美国稻种中存在着对野败雄性不育育性恢复程度不同的品种,鉴定出了2份具有高恢复力的材料,Urn071(84.53%)和C93-145(73.19%);6份具有保持能力的材料,C94-303(0.00%)、25079-80(0.46%)、C93-143(0.62%)、SB01-1536(2.36%)、25127-128(3.05%)和C96-718(3.34%)。这些材料可为在重庆选育优良“三系”杂交稻亲本提供优良资源。
3.遗传多样性分析
从88对平均分布于水稻12条染色体的SSR引物中筛选出24对用于33份美国稻和13份中国稻的多态性分析,24对引物在46份材料中共检测到189条带,其中多态性带177条,多态率高达93.65%。UPGMA聚类分析把46份材料分为两大类,28份美国稻组成Ⅰ类,另5份美国稻与13份中国稻组成Ⅱ类:Ⅱ类中,美国稻与中国稻分别聚为Ⅱ-1和Ⅱ-2两个
In general, the rice showed relatively worser quality in Chongqing, because of the simple genetic diversity of restoring lines and disadvantageous condition of climate such as high temperature, excessive fog and lower intensity of illumination. American rice took on a series of advantageous characters in quality, ability of tolerance for fertilizer, resistance to lodge, effective spike ratio, adaptability to strong illumilation, insensitive against temperature, cross-compatibility to both Indica rice and Japonica rice. In this research, we introduced into 33 American rice, evaluated the insensitive against temperature in serial seedtime, and determined the relationship of restoring and retaining lines by crossing with Jin 1A (WA type CMS line). We analyzed the genetic diversity among the America rice and China rice, obtained excellent parents adapting to the condition of high temperature climate such as Chongqing, and laid a foundation of breeding the variety of fine quality and high yield.
1. Evaluation on temperature insensitivity in the American rice and Chinese rice
We have evaluated the IV (insensitivity value) of characters of agronomy and quality in between 33 American and 13 Chinese rice breeds, and contrasted the quality characters in between the most insensitive 14 American and 5 Chinese rice breeds. The results show that these American rice breeds are insensitive in the rate of chalk, brown rice and head rice, especially in chalk rate. And basing on the results we have selected 14 American rice which are the most insensitive against temperature such as C94-403, Lemont, SB01-1692, SB01-1534, C96-722, Katy, SB01-1530, SB01-5529, C93-134, Maybelle, Kaybonnet, SB01-1536, C94-416, and C93-143-1.
2. Identification on ability of restoring and maintaining in the American rice
F1 fertility of crosses between 33 varieties collected from America and Jin 1A (WA type CMS line) was tested. The results show the differences in fertility restoring degree are present in rice in
引文
1.包劲松,徐冀骥,吴文清.早稻异季育种中稻米食用与蒸煮品质变化特征的研究.浙江大学学报(农学与生命科学版),2000,26:103-106
2.本庄一雄.稻米蛋白质含量的研究Ⅰ不同施肥条件对糙米蛋白质含有率和蛋白质总量的影响.日本作物学会纪事,1971,40:190-197
3.本庄一雄.稻米蛋白质含量的研究Ⅱ稻体内氮素和齐穗期追肥氮素向穗部的运转.日本作物学会纪事,1979,48:517-524
4.程方民,吴永常.稻米胶稠度与结实期温度间的关系.西北农业大学学报,1996,24(5):16-20
5.程方民,朱碧岩.稻米直链淀粉含量的形成及其与灌浆结实期温度的关系.生态学报,2000,20(4):646-652
6.程方民,钟连进.不同气候生态条件下稻米品质性状变异及影响的主要气候因子分析.中国水稻科学,2001,15:187-192
7.程方民,张嵩午.灌浆结实期温度对稻米垩白形成的影响.西北农业学报,1996,5(2):31-34
8.程方民,胡东维.人工控温条件下稻米垩白形成变化及胚乳扫描结构观察,中国水稻科学,2000,14(2):83-87
9.邓华凤,舒服,蒲宏铁.对长江流域早籼稻品质改良中几个问题的看法.杂交水稻,2001,16(4):4-6
10.段世华,毛加宁,朱英国.用微卫星DNA标记对我国杂交水稻主要恢复系遗传差异的检测分析.遗传学报,2002,29(3):250-254
11.段世华,毛加宁,朱英国.利用RAPD分子标记对我国杂交水稻主要恢复系的DNA 多态性研究.武汉大学学报(理学版),2001,147(14):508-512.
12.樊叶杨,庄杰云,吴建利,孙宝龙,郑康乐.应用微卫星标记鉴别水稻籼粳亚种.遗传,2000,22(6):392-394.
13.符文英,陈俊.稻米营养品质研究综述.海南大学学报自然科学版,1997,15(1):67-70
14.郭龙彪,罗利军,余新桥.美国光壳稻品种农艺性状评价及其改良利用.浙江农业科学,1999,(5):201-206
15.何光华,裴炎,杨光伟,谢戎.我国中籼杂交稻亲本的DNA变异性研究.作物学报,2000,26(4):449-454
16.何光华,侯磊,李德谋,罗小英,牛国清,唐梅,裴炎.利用分子标记预测杂交水稻产量及其构成因素.遗传学报,2002,29(5):438-444
17.贺浩华,彭小松.环境条件对稻米品质的影响.江西农业学报,1997,9(4):66-72
18.胡培松,庸绍清,罗炬,黄发松.美国光身稻品种的利用与超高产品种的选育.作物学报,??1999,25(1):32-38
19.湖南省优质米栽培技术研究协作组.优质米栽培技术体系研究.湖南农业科学,1998,(1):9-12
20.黄发松,孙宗修.食用稻米品质形成研究的现状与展望.中国水稻科学,1998,12(3):172-176
21.贾志宽,朱碧岩.稻米垩白形成的气候生态基础研究.应用生态学报,1992,3(4):321-326
22.贾志宽,朱碧岩.灌浆期气温的分布对稻米直链淀粉积累效应的初步研究.云南农业大学学报,1991,6(2):65-69
23.李莉,杨剑波,D.J.Mackill,P.M.Colowi.应用自动荧光测序系统分析不同水稻基因型SSLPs.作物学报,2000,26(5):565-569
24.李林,沙国栋.水稻灌浆期温光因子对稻米品质的影响.中国农业气象,1989,(3):33-38
25.李容柏,M.P.Pandey,杨新庆,廖惠红,邓智年,张向军,韦燕萍,李小勇,岑贞陆,吕维莉,魏源文,黄思良,李杨瑞.标记辅助改良热带粳稻利用水稻亚种间杂种优势.广西农业科学,2005,36(1):1-5
26.李欣,顾铭洪.灌浆结实期环境条件对稻米品质的影响.江苏农学院学报,1989,10(1):7-12
27.李文彬,周小梅,张健,舒群芳,傅荣昭,曹光诚,马江,戴思兰 张利明,孙勇如.水稻三系及其杂种的RAPD指纹图谱分析.农业生物技术学报,1995,3(2):1-6
28.李雅娟,崔成焕.稻米品质与结实期温度.东北农业大学学报,1996,27(3):223-230
29.李自超,王象坤,王剑平.美国稻的广亲和性及其遗传研究.北京农业大学学报,1994,20(2):120-126
30.李自超,王象坤,王剑平.美国稻在水稻杂种优势利用中的地位.华北农学报,1995,10(1):22-28
31.粱婉琪,黄亚红,潘爱虎,曾令珂,张大兵,袁勤,全立勇,曹黎明,倪林娟.杂交粳稻亲本随机扩增多态性DNA(RAPD)分析.上海农业学报,2001,17(2):33-36
32.林茂锋.金早系列水稻品种稻米品质的气象条件.福建农业大学学报,1994,23:368-371
33.蔺万煌,彭克勤.稻米垩白的形成及其调控.湖南农业大学学报(自然科学版),2001,27(3):234-239
34.刘殊,程慧,王飞,朱英国.我国杂交水稻主要恢复系的DNA多态性研究.中国水稻科学,2002,16(1):1-5
35.刘文炳,张建新,罗维禄,林琼,池晓雯,蔡为铭.光身杂交稻选育研究进展.杂交水稻,2005,20(1):6-10
36.刘文炳,郑旋,张建新,蔡为铭.野败型“三系”光身杂交稻选育初报.中国稻米,2003,(4):16-1837.陆贤军.水稻野败不育恢复基因在岷江、涪江流域地方品种中的分布初探.四川农业大学学报,1996,(2):167—170。
38.吕文彦.辽宁省水稻品质兼及品质与产量关系的研究Ⅲ-不同穗型强势粒与弱势粒稻米品质差异.辽宁农业科学,2001,(1):1-3
39.吕文彦.灌浆结实期日均温度对稻米品质之影响.辽宁农业科学,1998,(4):1-6
40.吕文彦.辽宁省水稻品质兼及品质与产量关系的研究Ⅴ.稻谷灌浆与稻米品质.辽宁农业科学,2001,(6):19-21
41.罗崇善,袁隆平.杂交水稻种质资源研究利用概况.作物品种资源,1990,(1):5—9
42.罗利军,应存山,梅捍卫,王一平.14份美国水稻品种的研究和评价.中国水稻科学,1993,7(3):179-182
43.罗盛财,杨聚宝.BT型光身不育系——包珍兰A选育初报.杂交水稻,1989,(4):18-19
44.孟亚利,高如嵩.影响稻米品质的主要气候生态因子研究.西北农业大学学报,1994,22(1):40-43
45.孟亚利,周治国.结实期温度与稻米品质的关系.中国水稻科学,1997,11(1):51-54
46.任久江.气候波动对水稻产量的影响.西南农业大学学报,1991,13(3):275-279
47.桑贤春,何光华,张毅,杨正林,裴炎.水稻PCR扩增模板的快速制备.遗传,2003,25(6):705-707
48.沈波,陈能.温度对早籼稻米垩白发生与胚乳形成的影响.中国水稻科学,1997,11(3):183-186
49.苏泽胜.安徽省籼稻地方品种对野败不育系恢复力初探.安徽农业科学,1985,(3):31—34。
50.孙义伟.水稻成熟期气温对稻米品质的影响.水稻文摘,1993,12(2):6-8
51.唐梅,裴炎,何光华.四川省籼型杂交水稻保持系的随机扩增多态性研究.西南农业学报,2000,13(1):12-16
52.王长发.籼型杂交水稻稻米糊化温度的气象生态效应研究.陕西农业科学,1995,(4):11-12
53.王建军,申宗坦.美国稻种分类的研究.作物品种资源,1992,(2):4-6
54.王候聪,邱思密,陈如铭,方亚顺,杨觉民,辛泽毓,黄厚哲.优质早釉稻新品种选育20年.厦门大学学报(自然科学版),2001,20(2):630-641
55.王三良,许可.我国籼型杂交水稻育种现状、问题与对策.杂交水稻,1996,(3):1-4
56.王忠安.两系杂交水稻亲本间多态性的SSR分析.杂交水稻,2004,19(2):59-61
57.熊立仲,王石平,刘克德,戴先凯,M.A.Saghai—Maroo,胡锦国,张启发.微卫星DNA和AFLP标记在水稻分子标记连锁图上的分布.植物学报,1998,40(7):605-614
58.杨继民.稻米直链淀粉含量与结实期齐穗后20d温度间的关系.陕西农业科学,1998,(1):??4-6
59.杨丽敏.寒地水稻低直链淀粉材料的筛选及影响因素的研究.黑龙江农业科学,1999,(1):11-13
60.甑海.不同栽培对稻米外观品质的影响.广东农业科学,1998,(增刊):48-51
61.张建新,郑家团.光身优质杂交稻的选育研究.三明农业科技,1999,(2):24-25
62.张磊,吴冬云,诸碧岩,张铭光,黎杰强.灌浆期不同温光对水稻叶、籽粒可溶性蛋白质及可溶性糖动态变化的影响.华南师范大学学报(自然科学版),2002,(2):98-101
63.张嵩午,周德翼.温度对水稻整精米率的影响.中国水稻科学,1993,7(4):211-216
64.张嵩午,吴永常.稻米品质温光潜势的估算及其在我国的地域分布.自然资源学报,1997,12(4):323-328
65.张培江,才宏伟.RAPD分子标记水稻遗传距离及1G与杂种优势的关系.安徽农业科学,2000,28(6):697--700
66.郑景生,陈良兵,符文英,李义珍.野生稻不同基因组的SSR多样性分析.分子植物育种,2004,2(1):25-33
67.钟旭华.稻米垩白度与籽粒灌浆特征特性参数的关系研究.江西农业大学学报,1996,18(4):387-393
68.钟旭华,李太贵.不同结实温度下稻米直链淀粉含量与千粒重的相关研究.中国水稻科学,1994,8(2):126-128
69.周德翼,张嵩午.稻米直链淀粉含量与结实期温度间的关系研究.西北农业大学学报,1994,22(2):1-5
70.周广洽,李训贞.温光对稻米蛋白质及氨基酸含量的影响.生态学报,1997,17(5):537-542
71.朱碧岩,程方民.稻米外观品质形成动态变化规律及结实期温度的影响.华南师范大学学报,2000,(3):75-80
72.朱碧岩,程方民.稻米直链淀粉含量形成动态及结实期温度的影响.华南师范大学学报,2000,(1):94-98
73.朱碧岩,程方民.结实期温度对稻米粒重和整精米率形成动态的影响.西北农业学报,1996,5(4):31-35
74.朱宏波,方宣钧,杨仁崔.利用水稻基因组序列数据开发SSR标记的方法.分子植物育种,2003,1(2):273-276.
75.朱旭东,熊振民.异季栽培对稻米品质的影响.中国水稻科学,1993,7(3):172-174
76.朱作峰,孙传清,李自超,王象坤.用SSR标记对水稻品种的分类研究.农业生物技术学报,2001,9(1):58-61
77. Akagi H. , Yokozeki Y. , Inagaki A. , and Fujimura T. Microsatellite DNA markers for rice chromosomes.Theoretic. Appl. Genet. , 1996, 93: 1071-1077
78. Anderson J. A. , Churchill G. A. , SutriqueJ. E. , Tanksley S. D. , and Sorrells M. E. Optimizing parental selection for genetic linkage maps.Genome, 1993. 36: 181-186
79. Blair MW, HedetaleV, McCouch S R. Fluorescetlabeled microsatellite panels useful for detecting allelic diversity in cultivated rice(Oryza sativa L. ). Theor Appl Genet, 2002. 105: 449-457.
80. Botstein D. , Wllite R. L. , Skolnick M. , and Davis R. W . Construction of a genetic link age map in man using restriction fragment length polymorphisms . Am . J. Hum . Genet. . 1980, 32: 314. 331
81. Coburn J R, Temnykh S V, Paul E M, et al. Design and application of microsatellite marker panels for semiautomated genotyping of rice(Oryza sativaL. ). Crop Sci, 2002, 42: 2092—2099.
82. Dib C.A comprehensive genetic map of the human genome base on 5364 microssatellite.Nature,1996,380:152-154
83. Dietrich W F.A comprehensive genetic map of the mouse genome.Nsture, 1996,380:149-152
84. Gomez A.K.Effect of environment on protein and amylase content of rice.Proceedings of the workshop on chemical aspects of rice grain quality, 1979,59-65
85. Guang-Cen He,Kiyoshi Kogure.Development of endosperm and synthesis of starch in rice grain. 1 .Development of endosperm and distribution of C-labled assimilates.Japan Jour Ctop Sci,1989,58(2):246-252
86. Hamada H. Potential Z-DNA forming sequences are highly dispersed in the human genome.Nature, 1982,298:396-398
87. Jaliano B O.Bechtel D B.The rice grain and its gross composition.In:Rice chemistry technology(B O Juliano ed) AM, ASSOC, Creal Chem, USA, 1985,62:15-57
88. Lagercrantz U, EllegrenH, Andersson L. The abundance of various polymorphic microsatellite motifs differs between plants and vertebrates. Nucl Acids Res, 1993, 21:11 11. 1115.
89. McCouch S.R Temnykh S. , Lul(ashova A. , Cobum J. , DeClerck G. , Cartinhour S. , Harringtons. , Thomson M. , Septiningsih E. , Semon M . , Moncada P. , and Li J. M . M crosatellitemarkers in rice: abun dance, diversity, an d applications, Rice Genetics IV, Science Publishers, Inc. (mgiSP1), newDelhi, India, 2001, PP. 117-135
90. McCouch S.R..,Chen X.,Panaud O.,Temnykh S.,Xu Y.,Cho Y.G.Huang N.,Ishii T.,and Blair M.Microsatellite marker development mapping and applications in rice genetics an d breeding, Plant Mol. Biol. , 35: 89-99
91. Nakamura Y.Variable number of tandem repeat(VNTR) maker for human gene
mapping.Science, 1987,23 5:1616-1622
92. Panaud O.,Chen X.,and McCouch S.R.Frequency of microsatellite sequences in rice (Oryza sative L.),Genome,38:1170-1176
93. Pan audO. , Chen X. . and McCouch S. R. . Development of microsatellite markers and characterization of simple sequence length polymorphism (SSLP)in rice(Oryza sativaL. ), Mol. Gen. Genet. , 1996, 252: 597-607
94. Resurrecion A.P.Effect of temperature during ripening on grain guality of rice.Soil Science And Plant Nutrition, 1977,23(1): 109-112
95. Tautz D.Renz M.Simple sequences are ubiquitous repetitive components of eukayotic genomes.Nucle Acids Res, 1984,12:4 127-4 138
96. Temnykh S. DeClerck G, Lukashova A, et al. Coutational and experimental analysis ofmicrosatellites in rice (Oryza saliva L. ): frequency, length variation, transposon associations, and genetic marker potential. Genome Res, 2001, 11: 1441 -1452.
97. Toru Tashiro.Studies on white belly rice kemel Ⅶ the most vunerable stages of kemel development for the occurrence of white belly. Japan Jour Crop Sci,1980,49(3):482-488
98. Tsuneo Kato.Effects of the shading and rachis branch clipping on the grain filling process of rice cultivars differing in the grain.Japan Jour Crop Sci,1986,55(2):252-260
99. Wang Z, Weber J L, Zhong G, et al. Survey ofplant short tandem DNA repeats. TheorAppI Genet, 1994, 88: 1-6
100. Wu KS and Tanksley S. D. , Abundance, polymorphism and genetic mapping of microsatellites in rice, Mol. Gen. Genet. , 1993, 24: 225—235
101. Yang G P,Saghai-Maroof M A,Xu C GComparative analysis of microsatellite DAN polymorphism in landraces and cultivars of rice.Mol Gen Genet, 1994,245:187-194
102. Yang G. P. , Saghai—MaroofM. A. , XuC. G. , Zhang Q. , and Biyashev R. M . , , Comparative an alysis of microsatellite DNA polymorphism in lan draces and cultivars office, Mol. 1994, Gen. Genet. . 245: 187—194
103. Yu J. , Hu S. N. , Wang J. , Wong G. K. , Li S. , Liu B. , Deng Y. , Dai L. , Zhou Y. , Zhang X. , Cao M . , Liu J. , Sun J. , Tang J. , Chen Y. , Huang X, , Lin W . , Ye C. , Tong W . , Cong L. , GengJ. , Han Y. , Li L. , Li W . , Hu G. , Huang X. , Li W . , Li J. , Liu Z. , Li L. , Liu J. , QiQ. , Liu J. , Li L_, LiT. , WangX. , LuH. , Wu T. , ZhuM. , Ni P. , Han H. , Dong W. , Ren X. , Feng X. , Cui P. , Li X. , Wang H. , Xu X. , Zhai W . , Xu Z. , Zhang J. , He S. , Zhang J. , XuJ. , Zhang K. , Zheng X. , Dong J. , ZengW . , TaoL. , Ye J. , Tan J. , Ren X. , Chen X. , He J. , Liu D. , Tian W. , Tian C. ,
Xia H. , Bao Q. , Li G. , Gao H. , Cao T. , Wang J. , Zhao W. , Li P. , Chen W. , Wang X. , Zhang Y. , Hu J. , Wang J. , Liu S. , Yang J. , Zhang G. , Xiong Y. , Li Z. , Mao L. , Zhou C. , Zhu Z. , Chen R. , Hao B. , Zheng W . , Chen S. , Guo W . , Li G. , Liu S. , Tao M . , Wang J. , Zhu L. , Yuan L. , and Yang H. , . A draft sequence of the rice genome (Oryza s~iva L. ssp. ind / C.), Science, 2002,296:79—92
2.本庄一雄.稻米蛋白质含量的研究Ⅰ不同施肥条件对糙米蛋白质含有率和蛋白质总量的影响.日本作物学会纪事,1971,40:190-197
3.本庄一雄.稻米蛋白质含量的研究Ⅱ稻体内氮素和齐穗期追肥氮素向穗部的运转.日本作物学会纪事,1979,48:517-524
4.程方民,吴永常.稻米胶稠度与结实期温度间的关系.西北农业大学学报,1996,24(5):16-20
5.程方民,朱碧岩.稻米直链淀粉含量的形成及其与灌浆结实期温度的关系.生态学报,2000,20(4):646-652
6.程方民,钟连进.不同气候生态条件下稻米品质性状变异及影响的主要气候因子分析.中国水稻科学,2001,15:187-192
7.程方民,张嵩午.灌浆结实期温度对稻米垩白形成的影响.西北农业学报,1996,5(2):31-34
8.程方民,胡东维.人工控温条件下稻米垩白形成变化及胚乳扫描结构观察,中国水稻科学,2000,14(2):83-87
9.邓华凤,舒服,蒲宏铁.对长江流域早籼稻品质改良中几个问题的看法.杂交水稻,2001,16(4):4-6
10.段世华,毛加宁,朱英国.用微卫星DNA标记对我国杂交水稻主要恢复系遗传差异的检测分析.遗传学报,2002,29(3):250-254
11.段世华,毛加宁,朱英国.利用RAPD分子标记对我国杂交水稻主要恢复系的DNA 多态性研究.武汉大学学报(理学版),2001,147(14):508-512.
12.樊叶杨,庄杰云,吴建利,孙宝龙,郑康乐.应用微卫星标记鉴别水稻籼粳亚种.遗传,2000,22(6):392-394.
13.符文英,陈俊.稻米营养品质研究综述.海南大学学报自然科学版,1997,15(1):67-70
14.郭龙彪,罗利军,余新桥.美国光壳稻品种农艺性状评价及其改良利用.浙江农业科学,1999,(5):201-206
15.何光华,裴炎,杨光伟,谢戎.我国中籼杂交稻亲本的DNA变异性研究.作物学报,2000,26(4):449-454
16.何光华,侯磊,李德谋,罗小英,牛国清,唐梅,裴炎.利用分子标记预测杂交水稻产量及其构成因素.遗传学报,2002,29(5):438-444
17.贺浩华,彭小松.环境条件对稻米品质的影响.江西农业学报,1997,9(4):66-72
18.胡培松,庸绍清,罗炬,黄发松.美国光身稻品种的利用与超高产品种的选育.作物学报,??1999,25(1):32-38
19.湖南省优质米栽培技术研究协作组.优质米栽培技术体系研究.湖南农业科学,1998,(1):9-12
20.黄发松,孙宗修.食用稻米品质形成研究的现状与展望.中国水稻科学,1998,12(3):172-176
21.贾志宽,朱碧岩.稻米垩白形成的气候生态基础研究.应用生态学报,1992,3(4):321-326
22.贾志宽,朱碧岩.灌浆期气温的分布对稻米直链淀粉积累效应的初步研究.云南农业大学学报,1991,6(2):65-69
23.李莉,杨剑波,D.J.Mackill,P.M.Colowi.应用自动荧光测序系统分析不同水稻基因型SSLPs.作物学报,2000,26(5):565-569
24.李林,沙国栋.水稻灌浆期温光因子对稻米品质的影响.中国农业气象,1989,(3):33-38
25.李容柏,M.P.Pandey,杨新庆,廖惠红,邓智年,张向军,韦燕萍,李小勇,岑贞陆,吕维莉,魏源文,黄思良,李杨瑞.标记辅助改良热带粳稻利用水稻亚种间杂种优势.广西农业科学,2005,36(1):1-5
26.李欣,顾铭洪.灌浆结实期环境条件对稻米品质的影响.江苏农学院学报,1989,10(1):7-12
27.李文彬,周小梅,张健,舒群芳,傅荣昭,曹光诚,马江,戴思兰 张利明,孙勇如.水稻三系及其杂种的RAPD指纹图谱分析.农业生物技术学报,1995,3(2):1-6
28.李雅娟,崔成焕.稻米品质与结实期温度.东北农业大学学报,1996,27(3):223-230
29.李自超,王象坤,王剑平.美国稻的广亲和性及其遗传研究.北京农业大学学报,1994,20(2):120-126
30.李自超,王象坤,王剑平.美国稻在水稻杂种优势利用中的地位.华北农学报,1995,10(1):22-28
31.粱婉琪,黄亚红,潘爱虎,曾令珂,张大兵,袁勤,全立勇,曹黎明,倪林娟.杂交粳稻亲本随机扩增多态性DNA(RAPD)分析.上海农业学报,2001,17(2):33-36
32.林茂锋.金早系列水稻品种稻米品质的气象条件.福建农业大学学报,1994,23:368-371
33.蔺万煌,彭克勤.稻米垩白的形成及其调控.湖南农业大学学报(自然科学版),2001,27(3):234-239
34.刘殊,程慧,王飞,朱英国.我国杂交水稻主要恢复系的DNA多态性研究.中国水稻科学,2002,16(1):1-5
35.刘文炳,张建新,罗维禄,林琼,池晓雯,蔡为铭.光身杂交稻选育研究进展.杂交水稻,2005,20(1):6-10
36.刘文炳,郑旋,张建新,蔡为铭.野败型“三系”光身杂交稻选育初报.中国稻米,2003,(4):16-1837.陆贤军.水稻野败不育恢复基因在岷江、涪江流域地方品种中的分布初探.四川农业大学学报,1996,(2):167—170。
38.吕文彦.辽宁省水稻品质兼及品质与产量关系的研究Ⅲ-不同穗型强势粒与弱势粒稻米品质差异.辽宁农业科学,2001,(1):1-3
39.吕文彦.灌浆结实期日均温度对稻米品质之影响.辽宁农业科学,1998,(4):1-6
40.吕文彦.辽宁省水稻品质兼及品质与产量关系的研究Ⅴ.稻谷灌浆与稻米品质.辽宁农业科学,2001,(6):19-21
41.罗崇善,袁隆平.杂交水稻种质资源研究利用概况.作物品种资源,1990,(1):5—9
42.罗利军,应存山,梅捍卫,王一平.14份美国水稻品种的研究和评价.中国水稻科学,1993,7(3):179-182
43.罗盛财,杨聚宝.BT型光身不育系——包珍兰A选育初报.杂交水稻,1989,(4):18-19
44.孟亚利,高如嵩.影响稻米品质的主要气候生态因子研究.西北农业大学学报,1994,22(1):40-43
45.孟亚利,周治国.结实期温度与稻米品质的关系.中国水稻科学,1997,11(1):51-54
46.任久江.气候波动对水稻产量的影响.西南农业大学学报,1991,13(3):275-279
47.桑贤春,何光华,张毅,杨正林,裴炎.水稻PCR扩增模板的快速制备.遗传,2003,25(6):705-707
48.沈波,陈能.温度对早籼稻米垩白发生与胚乳形成的影响.中国水稻科学,1997,11(3):183-186
49.苏泽胜.安徽省籼稻地方品种对野败不育系恢复力初探.安徽农业科学,1985,(3):31—34。
50.孙义伟.水稻成熟期气温对稻米品质的影响.水稻文摘,1993,12(2):6-8
51.唐梅,裴炎,何光华.四川省籼型杂交水稻保持系的随机扩增多态性研究.西南农业学报,2000,13(1):12-16
52.王长发.籼型杂交水稻稻米糊化温度的气象生态效应研究.陕西农业科学,1995,(4):11-12
53.王建军,申宗坦.美国稻种分类的研究.作物品种资源,1992,(2):4-6
54.王候聪,邱思密,陈如铭,方亚顺,杨觉民,辛泽毓,黄厚哲.优质早釉稻新品种选育20年.厦门大学学报(自然科学版),2001,20(2):630-641
55.王三良,许可.我国籼型杂交水稻育种现状、问题与对策.杂交水稻,1996,(3):1-4
56.王忠安.两系杂交水稻亲本间多态性的SSR分析.杂交水稻,2004,19(2):59-61
57.熊立仲,王石平,刘克德,戴先凯,M.A.Saghai—Maroo,胡锦国,张启发.微卫星DNA和AFLP标记在水稻分子标记连锁图上的分布.植物学报,1998,40(7):605-614
58.杨继民.稻米直链淀粉含量与结实期齐穗后20d温度间的关系.陕西农业科学,1998,(1):??4-6
59.杨丽敏.寒地水稻低直链淀粉材料的筛选及影响因素的研究.黑龙江农业科学,1999,(1):11-13
60.甑海.不同栽培对稻米外观品质的影响.广东农业科学,1998,(增刊):48-51
61.张建新,郑家团.光身优质杂交稻的选育研究.三明农业科技,1999,(2):24-25
62.张磊,吴冬云,诸碧岩,张铭光,黎杰强.灌浆期不同温光对水稻叶、籽粒可溶性蛋白质及可溶性糖动态变化的影响.华南师范大学学报(自然科学版),2002,(2):98-101
63.张嵩午,周德翼.温度对水稻整精米率的影响.中国水稻科学,1993,7(4):211-216
64.张嵩午,吴永常.稻米品质温光潜势的估算及其在我国的地域分布.自然资源学报,1997,12(4):323-328
65.张培江,才宏伟.RAPD分子标记水稻遗传距离及1G与杂种优势的关系.安徽农业科学,2000,28(6):697--700
66.郑景生,陈良兵,符文英,李义珍.野生稻不同基因组的SSR多样性分析.分子植物育种,2004,2(1):25-33
67.钟旭华.稻米垩白度与籽粒灌浆特征特性参数的关系研究.江西农业大学学报,1996,18(4):387-393
68.钟旭华,李太贵.不同结实温度下稻米直链淀粉含量与千粒重的相关研究.中国水稻科学,1994,8(2):126-128
69.周德翼,张嵩午.稻米直链淀粉含量与结实期温度间的关系研究.西北农业大学学报,1994,22(2):1-5
70.周广洽,李训贞.温光对稻米蛋白质及氨基酸含量的影响.生态学报,1997,17(5):537-542
71.朱碧岩,程方民.稻米外观品质形成动态变化规律及结实期温度的影响.华南师范大学学报,2000,(3):75-80
72.朱碧岩,程方民.稻米直链淀粉含量形成动态及结实期温度的影响.华南师范大学学报,2000,(1):94-98
73.朱碧岩,程方民.结实期温度对稻米粒重和整精米率形成动态的影响.西北农业学报,1996,5(4):31-35
74.朱宏波,方宣钧,杨仁崔.利用水稻基因组序列数据开发SSR标记的方法.分子植物育种,2003,1(2):273-276.
75.朱旭东,熊振民.异季栽培对稻米品质的影响.中国水稻科学,1993,7(3):172-174
76.朱作峰,孙传清,李自超,王象坤.用SSR标记对水稻品种的分类研究.农业生物技术学报,2001,9(1):58-61
77. Akagi H. , Yokozeki Y. , Inagaki A. , and Fujimura T. Microsatellite DNA markers for rice chromosomes.Theoretic. Appl. Genet. , 1996, 93: 1071-1077
78. Anderson J. A. , Churchill G. A. , SutriqueJ. E. , Tanksley S. D. , and Sorrells M. E. Optimizing parental selection for genetic linkage maps.Genome, 1993. 36: 181-186
79. Blair MW, HedetaleV, McCouch S R. Fluorescetlabeled microsatellite panels useful for detecting allelic diversity in cultivated rice(Oryza sativa L. ). Theor Appl Genet, 2002. 105: 449-457.
80. Botstein D. , Wllite R. L. , Skolnick M. , and Davis R. W . Construction of a genetic link age map in man using restriction fragment length polymorphisms . Am . J. Hum . Genet. . 1980, 32: 314. 331
81. Coburn J R, Temnykh S V, Paul E M, et al. Design and application of microsatellite marker panels for semiautomated genotyping of rice(Oryza sativaL. ). Crop Sci, 2002, 42: 2092—2099.
82. Dib C.A comprehensive genetic map of the human genome base on 5364 microssatellite.Nature,1996,380:152-154
83. Dietrich W F.A comprehensive genetic map of the mouse genome.Nsture, 1996,380:149-152
84. Gomez A.K.Effect of environment on protein and amylase content of rice.Proceedings of the workshop on chemical aspects of rice grain quality, 1979,59-65
85. Guang-Cen He,Kiyoshi Kogure.Development of endosperm and synthesis of starch in rice grain. 1 .Development of endosperm and distribution of C-labled assimilates.Japan Jour Ctop Sci,1989,58(2):246-252
86. Hamada H. Potential Z-DNA forming sequences are highly dispersed in the human genome.Nature, 1982,298:396-398
87. Jaliano B O.Bechtel D B.The rice grain and its gross composition.In:Rice chemistry technology(B O Juliano ed) AM, ASSOC, Creal Chem, USA, 1985,62:15-57
88. Lagercrantz U, EllegrenH, Andersson L. The abundance of various polymorphic microsatellite motifs differs between plants and vertebrates. Nucl Acids Res, 1993, 21:11 11. 1115.
89. McCouch S.R Temnykh S. , Lul(ashova A. , Cobum J. , DeClerck G. , Cartinhour S. , Harringtons. , Thomson M. , Septiningsih E. , Semon M . , Moncada P. , and Li J. M . M crosatellitemarkers in rice: abun dance, diversity, an d applications, Rice Genetics IV, Science Publishers, Inc. (mgiSP1), newDelhi, India, 2001, PP. 117-135
90. McCouch S.R..,Chen X.,Panaud O.,Temnykh S.,Xu Y.,Cho Y.G.Huang N.,Ishii T.,and Blair M.Microsatellite marker development mapping and applications in rice genetics an d breeding, Plant Mol. Biol. , 35: 89-99
91. Nakamura Y.Variable number of tandem repeat(VNTR) maker for human gene
mapping.Science, 1987,23 5:1616-1622
92. Panaud O.,Chen X.,and McCouch S.R.Frequency of microsatellite sequences in rice (Oryza sative L.),Genome,38:1170-1176
93. Pan audO. , Chen X. . and McCouch S. R. . Development of microsatellite markers and characterization of simple sequence length polymorphism (SSLP)in rice(Oryza sativaL. ), Mol. Gen. Genet. , 1996, 252: 597-607
94. Resurrecion A.P.Effect of temperature during ripening on grain guality of rice.Soil Science And Plant Nutrition, 1977,23(1): 109-112
95. Tautz D.Renz M.Simple sequences are ubiquitous repetitive components of eukayotic genomes.Nucle Acids Res, 1984,12:4 127-4 138
96. Temnykh S. DeClerck G, Lukashova A, et al. Coutational and experimental analysis ofmicrosatellites in rice (Oryza saliva L. ): frequency, length variation, transposon associations, and genetic marker potential. Genome Res, 2001, 11: 1441 -1452.
97. Toru Tashiro.Studies on white belly rice kemel Ⅶ the most vunerable stages of kemel development for the occurrence of white belly. Japan Jour Crop Sci,1980,49(3):482-488
98. Tsuneo Kato.Effects of the shading and rachis branch clipping on the grain filling process of rice cultivars differing in the grain.Japan Jour Crop Sci,1986,55(2):252-260
99. Wang Z, Weber J L, Zhong G, et al. Survey ofplant short tandem DNA repeats. TheorAppI Genet, 1994, 88: 1-6
100. Wu KS and Tanksley S. D. , Abundance, polymorphism and genetic mapping of microsatellites in rice, Mol. Gen. Genet. , 1993, 24: 225—235
101. Yang G P,Saghai-Maroof M A,Xu C GComparative analysis of microsatellite DAN polymorphism in landraces and cultivars of rice.Mol Gen Genet, 1994,245:187-194
102. Yang G. P. , Saghai—MaroofM. A. , XuC. G. , Zhang Q. , and Biyashev R. M . , , Comparative an alysis of microsatellite DNA polymorphism in lan draces and cultivars office, Mol. 1994, Gen. Genet. . 245: 187—194
103. Yu J. , Hu S. N. , Wang J. , Wong G. K. , Li S. , Liu B. , Deng Y. , Dai L. , Zhou Y. , Zhang X. , Cao M . , Liu J. , Sun J. , Tang J. , Chen Y. , Huang X, , Lin W . , Ye C. , Tong W . , Cong L. , GengJ. , Han Y. , Li L. , Li W . , Hu G. , Huang X. , Li W . , Li J. , Liu Z. , Li L. , Liu J. , QiQ. , Liu J. , Li L_, LiT. , WangX. , LuH. , Wu T. , ZhuM. , Ni P. , Han H. , Dong W. , Ren X. , Feng X. , Cui P. , Li X. , Wang H. , Xu X. , Zhai W . , Xu Z. , Zhang J. , He S. , Zhang J. , XuJ. , Zhang K. , Zheng X. , Dong J. , ZengW . , TaoL. , Ye J. , Tan J. , Ren X. , Chen X. , He J. , Liu D. , Tian W. , Tian C. ,
Xia H. , Bao Q. , Li G. , Gao H. , Cao T. , Wang J. , Zhao W. , Li P. , Chen W. , Wang X. , Zhang Y. , Hu J. , Wang J. , Liu S. , Yang J. , Zhang G. , Xiong Y. , Li Z. , Mao L. , Zhou C. , Zhu Z. , Chen R. , Hao B. , Zheng W . , Chen S. , Guo W . , Li G. , Liu S. , Tao M . , Wang J. , Zhu L. , Yuan L. , and Yang H. , . A draft sequence of the rice genome (Oryza s~iva L. ssp. ind / C.), Science, 2002,296:79—92