Scientia Agricultura Sinica ›› 2014, Vol. 47 ›› Issue (17): 3336-3347.doi: 10.3864/j.issn.0578-1752.2014.17.002
• CROP GENETICS & BREEDING·GERMPLASM RESOURCES • Previous Articles Next Articles
LI Dong-liang, JING Yan-ping, LI Xiao-gang, GU Yun-jie, WANG Zhong
[1]王海莲, 管延安, 张华文, 杨延兵, 秦岭. 高梁基因组学研究进展. 基因组学与应用生物学, 2009, 28(3): 549-556. Wang H L, Guan Y A, Zhang H W, Yang Y B, Qin L. Advances in the study on sorghum genomics. Genomics and Applied Biology, 2009, 28(3): 549-556. (in Chinese) [2]Earp C F, McDonough C M, Rooney L W. Microscopy of pericarp development in the caryopsis of Sorghum bicolor (L.) Moench. Journal of Cereal Science, 2004, 39(1): 21-27. [3]顾蕴洁, 王忠, 陈义芳, 陈刚, 黄海. 高粱胚乳发育的观察与研究. 南京师大学报: 自然科学版, 2002, 25(3): 99-108. Gu Y J, Wang Z, Chen Y F, Chen G, Huang H. The observation and study on the development of sorghum endosperm. Journal of Nanjing Normal University: Natural Science Edition, 2002, 25(3): 99-108. (in Chinese) [4]王忠, 顾蕴洁, 王慧慧, 郑彦坤, 王玲玲, 李栋梁. 关于高粱胚乳细胞发育的研究. 中国科技论文在线 2012. http://www.paper.edu.cn. Wang Z, Gu Y J, Wang H H, Zheng Y K, Wang L L, Li D L. Investigation of the sorghum endosperm cell development. Sciencepaper online. 2012. http://www.paper.edu.cn. (in Chinese) [5]Kladnik A, Chourey P S, Pring D R, Dermastia M. Development of the endosperm of Sorghum bicolor during the endoreduplication- associated growth phase. Journal of Cereal Science, 2006, 43(2): 209-215. [6]汤述翥, 薛元龙. 杂交高粱KS-304开发利用研究初报. 江苏农业科学, 1998(6): 24-26. Tang S Z, Xue Y L. Preliminary report on exploitation and utilization of sorghum hybrids KS-304. Jiangsu Agricutural Science, 1998(6): 24-26.(in Chinese) [7]李筱倩, 孙龙生, 张艳云, 罗方妮. KS-304 杂交高粱对猪饲用价值的研究. 中国饲料, 1998, 4: 006.9-10. Li X Q, Sun L S, Zhang Y Y, Luo F N. Studies on feeding values of sorghum hybrids KS-304 for swine. China Feed, 1998, 4:006: 9-10.(in Chinese) [8]Freeman J A, Spurlock B O. A new epoxy embedment for electron microscopy. The Journal of Cell Biology, 1962, 13(3): 437-443. [9]王忠, 顾蕴洁, 郑彦坤, 王慧慧. 水稻胚乳细胞发育的结构观察及其矿质元素分析. 中国水稻科学, 2012, 26(6): 693-705. Wang Z, Gu Y J, Zheng Y K, Wang H H. Structure observation of rice endosperm cell development and its mineral element analysis. Chinese Journal of Rice Science, 2012, 26(6): 693-705. (in Chinese) [10]李冉俐, 申家恒, 贾媛, 李伟, 王黎明. 高粱受精过程及其经历的时间. 作物学报, 2009, 35(12): 2234-2242. Li R L, Shen J H, Jia Y, Li W, Wang L M. Fertilization process in sorghum and its performance time for each stage. Acta Agronomica Sinica, 2009, 35(12): 2234-2242. (in Chinese) [11]Reddy R N, Narayana L L, Rao N G P. Apomixis and its utilisation in grain sorghum-II; embryology of F1 progeny of reciprocal crosses between R473 and 302. Proceedings of the Indian Academy of Sciences: Section B. Part 2, Plant Sciences, 1979, 88(6): 455-461. [12]Bosnes M, Weideman F, Olsen O A. Endosperm differentiation in barley wild-type and sex mutants. The Plant Journal, 1992, 2(5): 661-674. [13]Olsen O A. Nuclear endosperm development in cereals and Arabidopsis thaliana. The Plant Cell Online, 2004, 16(suppl. 1): S214-S227. [14]Swigoňová Z, Lai J, Ma J, Ramakrishna W. Close split of sorghum and maize genome progenitors. Genome Research, 2004, 14(10a): 1916-1923. [15]Evers T, Millar S. Cereal grain structure and development: Some implications for quality. Journal of Cereal Science, 2002, 36: 261-284. [16]王忠, 李卫芳, 顾蕴洁, 石火英, 高煜珠. 水稻胚乳的发育及其养分输入的途径.作物学报,1995, 21(5):520-527 Wang Z, Li W F, Gu Y J, Shi H Y, Gao Y Z. Development of rice endosperm and the pathway of nutrients entering the endosperm. Acta Agronomica Sinica, 1995, 21(5): 520-527. (in Chinese) [17]王忠, 顾蕴洁. 小麦胚乳发育及其养分输入途径. 作物学报, 1998, 24(5): 536-543. Wang Z, Gu Y J. Development of wheat endosperm and the pathway of nutrients entering the endosperm. Acta Agronomica Sinica, 1998, 24(5): 536-543. (in Chinese) [18]王忠, 顾蕴洁, 李卫芳, 练兴明, 陈刚. 关于大麦胚乳发育的研究. 中国农业科学, 1996, 29(6): 38-45. Wang Z, Gu Y J, Li W F, Lian X M, Chen G. The study about development of barley endosperm. Scientia Agricultura Sinica, 1996, 29(6): 38-45. (in Chinese) [19]Charlton W L, Keen C L, Merriman C. Endosperm development in Zea mays; implication of gametic imprinting and paternal excess in regulation of transfer layer development. Development, 1995, 121(9): 3089-3097. [20]Robert P, Jamme F, Barron C, Bouchet B, Saulnier L. Change in wall composition of transfer and aleurone cells during wheat grain development. Planta, 2011, 233(2): 393-406. [21]Artschwager E, McGuire R C. Cytology of reproduction in sorghum vulgare. Journal of Agricultural Research, 1949, 78: 659-673. [22]Rooney L W, Miller F R, Mertin J V. Variation in the structure and kernel characteristics of sorghum//Proceedings of the International Symposium On Sorghum Grain Quality. ICRISAT Center, Patancheru, India, 1981: 143-162. [23]Paterson A H, Bowers J E, Bruggmann R, Dubchak I. The sorghum bicolor genome and the diversification of grasses. Nature, 2009, 457(7229): 551-556. [24]Mace E S, Tai S, Gilding E K, Li Y, Prentis P J. Whole-genome sequencing reveals untapped genetic potential in Africa’s indigenous cereal crop sorghum. Nature Communications, 2013, 4: 2320. [25]Earp C F, McDonough C M, Awika J, Rooney L W. Testa development in the caryopsis of Sorghum bicolor (L.) Moench. Journal of Cereal Science, 2004, 39(2): 303-311. |
[1] | WANG JinSong,DONG ErWei,LIU QiuXia,WU AiLian,WANG Yuan,WANG LiGe,JIAO XiaoYan. Effects of Row Spacing and Plant Density on Grain Yield and Quality of Grain-Feeding Sorghum [J]. Scientia Agricultura Sinica, 2022, 55(16): 3123-3133. |
[2] | SHI XiaoLong,GUO Pei,REN JingYao,ZHANG He,DONG QiQi,ZHAO XinHua,ZHOU YuFei,ZHANG Zheng,WAN ShuBo,YU HaiQiu. A Salt Stress Tolerance Effect Study in Peanut Based on Peanut//Sorghum Intercropping System [J]. Scientia Agricultura Sinica, 2022, 55(15): 2927-2937. |
[3] | XU Xiao,REN GenZeng,ZHAO XinRui,CHANG JinHua,CUI JiangHui. Accurate Identification and Comprehensive Evaluation of Panicle Phenotypic Traits of Landraces and Cultivars of Sorghum bicolor (L.) Moench in China [J]. Scientia Agricultura Sinica, 2022, 55(11): 2092-2108. |
[4] | ZHANG BeiJu,CHEN SongShu,LI KuiYin,LI LuHua,XU RuHong,AN Chang,XIONG FuMin,ZHANG Yan,DONG LiLi,REN MingJian. Construction and Application of Detection Model for Amylose and Amylopectin Content in Sorghum Grains Based on Near Infrared Spectroscopy [J]. Scientia Agricultura Sinica, 2022, 55(1): 26-35. |
[5] | LI ShunGuo,LIU Meng,LIU Fei,ZOU JianQiu,LU XiaoChun,DIAO XianMin. Current Status and Future Prospective of Sorghum Production and Seed Industry in China [J]. Scientia Agricultura Sinica, 2021, 54(3): 471-482. |
[6] | ZHANG Yan,WANG JinSong,DONG ErWei,WU AiLian,WANG Yuan,JIAO XiaoYan. Comprehensive Evaluation of Low-Fertility Tolerance of Different Sorghum Cultivars in Middle-Late-Maturing Area [J]. Scientia Agricultura Sinica, 2021, 54(23): 4954-4968. |
[7] | ZOU JianQiu. New Research Progress on Sorghum Breeding and Cultivation Techniques [J]. Scientia Agricultura Sinica, 2020, 53(14): 2769-2773. |
[8] | KE FuLai,ZHU Kai,LI ZhiHua,SHI YongShun,ZOU JianQiu,WANG YanQiu. Formation Regulating and Micro-Structure of Sorghum Starch with Different Types of Endosperm [J]. Scientia Agricultura Sinica, 2020, 53(14): 2774-2785. |
[9] | WANG LiMing,YAN HongDong,JIAO ShaoJie,JIANG YanXi,SU DeFeng,SUN GuangQuan. Heterosis Prediction of Sweet Sorghum Based on Combining Ability and Genetic Distance [J]. Scientia Agricultura Sinica, 2020, 53(14): 2786-2794. |
[10] | NIU Hao,PING JunAi,WANG YuBin,ZHANG FuYao,LÜ Xin,LI HuiMing,CHU JianQiang. Molecular Aided Breeding System of Photosensitive Forage Sorghum Based on SSR [J]. Scientia Agricultura Sinica, 2020, 53(14): 2795-2803. |
[11] | WANG HaiLian,WANG RunFeng,LIU Bin,ZHANG HuaWen. Effects of Harvesting at Different Growth Stage on Agronomic and Nutritional Quality Related Traits of Sweet Sorghum [J]. Scientia Agricultura Sinica, 2020, 53(14): 2804-2813. |
[12] | ZOU JianQiu,WANG YanQiu,LI JinHong,ZHU Kai. Dwarfing Effect and Molecular Mechanism of An Elite Sorghum Male Sterile Line 01-26A in Its Hybrids [J]. Scientia Agricultura Sinica, 2020, 53(14): 2814-2827. |
[13] | DUAN YouHou,LU Feng. Genetic Analysis on Growth Period and Plant Height Traits of Early-maturing Dwarf Sorghum Male-Sterile Line P03A [J]. Scientia Agricultura Sinica, 2020, 53(14): 2828-2839. |
[14] | XIAO MengYing,ZHANG RuiDong,ZHANG Zhuang,XU XiaoXue,CHEN XiaoFei,ZHOU YuFei,KONG FanHua,HUANG RuiDong. Taste Quality Traits of Sorghum Landraces from Liaoning Province [J]. Scientia Agricultura Sinica, 2019, 52(4): 591-601. |
[15] | DIAO XianMin. Progresses in Stress Tolerance and Field Cultivation Studies of Orphan Cereals in China [J]. Scientia Agricultura Sinica, 2019, 52(22): 3943-3949. |
|