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Abstract Foxtail millet (Setaria italica) isan important cereal crop in China, its nutritional qualities have been gradually attracted by people. With the development of biotechnology, foxtail millet has gradually become a new hot-spot in genetic improvement and functional genomic research, due to its hereditary features and small genome. In this paper, the breeding process and its application of the sterile line in millet are reviewed. Meanwhile, the formation of male sterility and related genes in millet are explained from different levels. Finally, the states of heterosis utilization in millet are summarized, and the future researches on the heterosis in millet are prospected consulting the results of other crops of Gramineae. The review can lay a theoretical foundation for study on utilization and mechanism of heterosis in foxtail millet.
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Received: 30 January 2018
Published: 26 September 2018
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| [1]曹金, 张志鹏, 1984.谷子两系杂交种的栽培及制种技术[J]. 现代农村科技, (2):11-12. (Cao J, Zhang Z. 1984. Cultivation and seed production techniques of two-line hybrids of foxtail millet[J]. Modern rural science and technology, (2):11-12.)
[2]陈绥莉.2013. 化学杂交剂诱导谷子雄性不育效果初探[J]. 陕西农业科学, (6):27-29. (Chen S. 2013. A preliminary study on the effect of chemical hybridizing agent for inducing male sterility in millet[J]. Journal of Shannxi Agricultural Science, (6):27-29.)
[3]程汝宏.2005. 我国谷子育种与生产现状及发展方向[J]. 河北农业科学., 9(4):86-90. (Cheng R. 2005. The present situation of foxtail millet (Setaria italica Beauv.) breeding and production as well as the further research directions in China[J]. Journal of Hebei Agricultural Science, 9(4):86-90.)
[4]崔文生, 孔玉珍, 杜贵, 等.1991a. 谷子光敏型显性核不育材料“光A1”选育研究初报[J]. 华北农学报, 6(S1):47. (Cui W, Kong Y, Du G, et al. 1991a. A preliminary observation on breeding of photoperiod-sensitive and dominant GMS material of foxtail millet “Guang A1”[J]. Acta Agriculturae Boreali-Sinica, 6(S1):47.)
[5]崔文生, 孔玉珍, 赵治海, 等.1991b. 谷子光敏型隐性核不育材料“292”选育初报[J]. 华北农学报, 6(S1):177. (Cui W, Kong Y, Zhao Z, et al. 1991b. A preliminary observation on breeding of photoperiod-sensitive and recessive GMS material of foxtail millet “292”[J]. Acta Agriculturae Boreali-Sinica, 6(S1):177.)
[6]崔文生, 马洪锡, 张德勇.1979. 谷子雄性不育系“蒜系28”的选育与利用[J]. 中国农业科学, 12(1):43-46. (Cui W, Ma H, Zhang D. 1979. The selection and utilization of "Suan Hsi 28" - a male sterility strain of millet[J]. Scientia Agricultura Sinica, 12(1):43-46.)
[7]刁现民.2012. 中国谷子杂种优势利用研究回顾与展望[C]. 2012作物杂种优势利用国际学术大会论文集. 中国工程院:306-307. (Diao X. 2012. Review and prospect of the study on the utilization of heterosis in millet of China[C]. Chinese Academy of Engineering:306-307.)
[8]刁现民, 杜瑞恒, 王天宇, 等.1991. 谷子Ch型显性雄性核不育花药发育的细胞形态学研究[J]. 华北农学报, 6(1):13-17. (Diao X, Du R, Wang T, et al. 1991. Cytomophological study on anther development of Ch dominant GMS plants in foxtail millet[J]. Acta Agriculturae Boreali-Sinica, 6(1):13-17.)
[9]刁现民, 智慧.1989. 粟细胞核雄性不育和雄性可育花药发育的细胞形态学研究[J]. 华北农学报, 4(S1):37-43. (Diao X, Zhi H. 1989. Sytomorphological research on anther development of nuclear male sterile and male fertile lines in foxtail millet (Setaria italica B.)[J]. Acta Agriculturae Boreali-Sinica, 4(S1):37-43.)
[10]杜瑞恒, 张玉宗, 籍贵苏, 等.2003. 谷子不育性的化学保持研究[J]. 华北农学报, 18(F09):70-72. (Du R, Zhang Y, Ji G, et al. 2003. Study on chemical maintenance of sterility in millet[J]. Acta Agriculturae Boreali-Sinica, 18(F09):70-72.)
[11]郭秀林, 刘子会, 王云, 等.2012. 张杂谷苹果酸脱氢酶和过氧化物酶同工酶研究[J]. 西北植物学报, 32(9):1768-1773. (Guo X, Liu Z, Wang Y, et al. 2012. Study on isozymes of MDH and POD of Hybrid Millet Zhang in different growing stages[J]. Acta Botanica Boreali-Occidentalia Sinica, 32(9):1768-1773.)
[12]郝晓芬, 王节之, 王根全, 等.2009. 利用AFLP技术对谷子光敏雄性不育基因进行分子标记[J]. 山西农业科学, 37(11):3-5, 10. (Hao X, Wang J, Wang G, et al. 2009. AFLP analysis of photo sensitive male sterile gene in millet[J]. Journal of Shanxi Agricultural Science, 37(11):3-5, 10.)
[13]郝晓芬, 王志民, 王根全, 等.2011. SSR方法标记谷子光敏雄性不育基因[J]. 华北农学报, 26(5):112-116. (Hao X, Wang Z, Wang G, et al. 2011. SSR analysis of photo-sensitive male sterile gene of millet[J]. Acta Agriculturae Boreali-Sinica, 26(5):112-116.)
[14]胡洪凯, 马尚耀, 石艳华.1986. 谷子(Setaria italica)显性雄性不育基因的发现[J]. 作物学报., 12(2):73-78. ( Hu H, Ma S, Shi Y. 1986. The foundation of dominant male sterile gene in millet (Setaria italica)[J]. Acta Agronomica Sinica, 12(2):73-78.)
[15]胡洪凯, 石艳华, 王朝斌, 等.1993. “Ch型”谷子显性核不育的遗传及其应用研究[J]. 作物学报, 19(3):208-217. (Hu H, Shi Y, Wang C, et al. 1993. Study on the inheritance of "Ch-" dominant nucleus sterility of millet (Setaria italica) and its application to commercial production[J]. Acta Agronomica Sinica, 19(3):208-217.)
[16]黄伟, 冯小磊, 苏旭, 等.2015. 谷子光温敏不育系A2育性转换研究初报[J]. 河北农业科学, 19(2):1-4. (Huang W, Feng X, Su X, et al. 2015. Research report about fertility alteration of photo-thermo sensitive sterile sine in foxtail millet[J]. Journal of Hebei Agricultural Science, 19(2):1-4.)
[17]李会霞, 王玉文, 田岗, 等.2010. 谷子高度雄性不育系不育基因的遗传分析[J]. 河北农业科学, 14(11):96-99. (Li H, Wang Y, Tian G, et al. 2010. Genetic analysis on sterile gene of highly sterility line of millet[J]. Journal of Hebei Agricultural Science, 14(11):96-99.)
[18]李径, 智慧, 贾冠清, 等.2012. 谷子J29A雄性不育基因的初步定位[C]. 2012作物杂种优势利用国际学术大会论文集. 中国工程院: (Li J, Zhi H, Jia G, et al. 2012. The draft mapping of male sterile gene in millet J29A[C]. Chinese Academy of Engineering: 127-128.)
[19]李素英, 冯小磊, 范光宇, 等.2016. 几个骨干谷子雄性不育系和恢复系的配合力分析[J]. 河北农业科学, 20(2):1-4. (Li S, Feng X, Fan G, et al. 2016. Analysis of combining ability between male sterile lines and restorer lines of some main foxtail millet[J]. Journal of Hebei Agricultural Science, 20(2):1-4.)
[20]李文, 王国槐.2011. 作物化学杂交剂的发展及其应用[J]. 作物研究, 25(3):281-286. (Li W, Wang G. 2011. Development and application of chemical hybridizing agent in crops[J]. Crop Research, 25(3):281-286.)
[21]李荫梅.1997. 谷子育种学[M]. 中国农业出版社, 北京. pp. 591-616. (Li Y. 1997. Breeding of foxtail millet[M]. China Agriculture Press, Beijing. pp. 591-616.)
[22]李志华, 景小兰, 穆婷婷.2016. 谷子雄性不育系利用及存在问题[J]. 中国种业, (6):11-13. (Li Z, Jing X, Mu T. 2016. Utilization and existing problems of male sterile lines in Millet[J]. China Seed Industry, (6):11-13.)
[23]刘子会, 王晓明, 柳斌辉, 等.2013. 不同生育期杂交谷子叶片氮代谢相关酶活性的杂种优势[J]. 西北农业学报, 22(10):75-79. (Liu Z, Wang X, Liu B, et al. 2013. Heterosis of enzymes involved in nitrogen metabolism at different growth stages in hybrid millet[J]. Acta Agriculturae Boreali-occidentalis Sinica, 22(10):75-79.)
[24]马尚耀, 成慧娟, 郝明杰.1990. 谷子(S.italica)雄性不育脂酶同功酶分析[J]. 内蒙古农业科技, (6):12-13. (Ma S, Cheng H, Hao M. 1990. Analysis of lipase isozyme in male sterility millet (S.italica) Inner Mongolia Agricultural Science and Technology, (6):12-13.)
[25]史关燕, 史更生, 史宏, 等.2001. 谷子化学杀雄技术的探讨[J]. 杂粮作物, 21(6):29-30. (Shi G, Shi G, Shi H, et al. 2001. Discussion on the chemical castration technology in millet[J]. Rain Fed Crops, :29-30.)
[26]宋瑜龙, 王亮明, 张改生, 等.2011. 杀雄剂SQ-1诱导谷子雄性不育研究[J]. 作物学报, 37(9):1695-1700. (Song Y, Wang L, Zhang G, et al. 2011. Male sterility induced by chemical hybridizing agent SQ-1 in Setaria italica Beauv.[J]. Acta Agronomica Sinica, 37(9):1695-1700.)
[27]孙春昀, 范昌发, 崔贵梅, 等.2001. 光敏雄性不育谷子683小孢子败育途径观察[J]. 西北植物学报, 21(6):1117-1122. (Sun C, Fan C, Cui G, et al. 2001. Observation on the microspore abortion of photoperiod-sensitive male sterile millet[J]. Acta Botanica Boreali-Occidentalia Sinica, 21(6):1117-1122.)
[28]汪鸿儒, 储成才.2017. 组学技术揭示水稻杂种优势遗传机制[J]. 植物学报, 52(1):4-9. (Wang H, Chu C. 2017. Underlying mechanism of heterosis unveiled by -Omics[J]. Chinese Bulletin of Botany, 52(1):4-9.)
[29]王节之, 郝晓芬, 王根全, 等.2010. 光敏雄性不育系(GM)谷子主要性状遗传规律研究[J]. 山西农业科学, 38(6):3-4, 17. (Wang J, Hao X, Wang G, et al. 2010. Heredity rules on characters of photo sensitivity male sterile lines in millet[J]. Journal of Shanxi Agricultural Science, 38(6):3-4.)
[30]王天宇.1991. 夏谷核型高度雄性不育系的研究与利用[J]. 河北农业大学学报., 14(2):35-39. (Wang T. 1991. A study and utilization of highly-nuclear-male-sterile line in summer millet[J]. Journal of Hebei Agricultural University, 14(2):35-39.)
[31]王玉文, 王随保, 李会霞, 等.2003. 谷子光敏雄性不育系选育及应用研究[J]. 中国农业科学, 36(6):714-717. (Wang Y, Wang S, Li H, et al. 2003. Studies of breeding of photoperiod-sensitive male-sterile line in millet and its application[J]. Scientia Agricultura Sinica, 36(6):714-717.)
[32]王玉文, 李会霞, 田岗, 等.2010. 谷子高异交结实雄性不育系的创制及应用[J]. 中国农业科学, 43(4):680-689. (Wang Y, Li H, Tian G, et al. 2010. Study on innovation and application of highly-male-sterile line with high outcrossing rate in millet[J]. Scientia Agricultura Sinica, 43(4):680-689.)
[33]王玉文, 李会霞, 王高鸿, 等.1998a. 谷子高度雄性不育系长10A的选育[J]. 甘肃农业科技, (12):12-13. (Wang Y, Li H, Wang G, et al. 1998a. Breeding of "Change 10A" of highly-male-sterile line in millet[J]. Gansu Agricultural Science and Technology, (12):12-13.)
[34]王玉文, 王殿瀛, 李会霞, 等.1998b. 光敏雄性不育谷子"683"的育性及其性状观察[J]. 山西农业科学, 26(4):31-33. (Wang Y, Wang D, Li H, et al. 1998b. Observation on fertility and characters of photoperiod-sensitive male sterile material of foxtail millet “683”[J]. Journal of Shanxi Agricultural Science, 26(4):31-33.)
[35]夏雪岩, 刘正理, 程汝宏, 等.2013. 两个谷子新不育系几个性状的配合力评价和遗传力分析[J]. 中国农业科技导报, 15(1):116-122. (Xia X, Liu Z, Cheng R, et al. 2013. Combining ability evaluation and heritability analysis of several traits of two novel millet sterile lines[J]. Journal ofAgricultural Science and Technology, 15(1):116-122.)
[36]闫宏山, 刘金荣, 王素英, 等.2011. 谷子品种间杂交选育雄性不育系研究[J]. 河南农业科学, 40(4):53-55. (Yan H, Liu J, Wang S, et al. 2011. Breeding of male sterile lines by hybridizing millet varieties[J]. Journal of HenanAgricultural Science, 40(4):53-55.)
[37]杨成元, 陈瑛, 史关燕, 等.2007. 高异交结实谷子雄性不育系晋汾1A的选育研究[J]. 陕西农业科学, (6):1-3. (Yang C, Chen Y, Shi G, et al. 2007. Study on breeding of highly-male-sterile line "JinFen1A" with high outcrossing rate in millet[J]. Journal of Shannxi Agricultural Science, (6):1-3.)
[38]杨莉芳.2013. 谷子雄性不育基因SiMS1的精细定位[D]. 硕士学位论文, 中国农业科学院, 导师: 刁现民. pp. 17, 29. (Yang L. 2013. Fine mapping of SiMS1 male sterile gene in foxtail millet (Setaria italica)[D]. Thesis for M.S., Chinese Academy of Agricultural Sciences. Supervisor: Diao X. pp.17, 29.)
[39]杨莉芳, 刁现民.2013. 植物细胞核雄性不育基因研究进展[J]. 植物遗传资源学报, 14(6):1108-1117. (Yang L, Diao X. 2013. Progress in identification of plant male sterility related nuclear genes[J]. Journal of Plant Genetic Resources, 14(6):1108-1117.)
[40]袁进成, 程校云, 姚志刚, 等.2015. 谷子显性恢复基因的AFLP分析[J]. 湖北农业科学, 54(7):1547-1551. (Yuan J, Cheng X, Yao Z, et al. 2015. AFLP analysis of the dominant restoring gene in foxtail millet (Setaria italica)[J]. Hubei Agricultural Science, 54(7):1547-1551.)
[41]袁进成, 石云素, 胡洪凯, 等., 2005. 谷子显性雄性不育基因Msch的AFLP标记[J]. 作物学报, 31(10):1295-1299. (Yuan J, Shi Y, Hu H, et al. 2005. AFLP mapping for the gene "Msch" controling the dominant male sterility in foxtail millet[J]. Acta Agronomica Sinica, 31(10):1295-1299.)
[42]赵连元, 刘占荣, 丁景旭.1982. 用“匀浆互补法”测试谷子杂种优势的研究[J]. 生物化学与生物物理进展, 9(1):77-79. (Zhao L, Liu Z, Ding J. 1982. Study on testing heterosis in millet using " homogenate complementation"[J]. Progress in Biochemistry and Biophysics, 9(1):77-79.)
[43]赵治海, 崔文生.1994. 不同地区来源谷子杂交后代中的光敏雄性不育[J]. 中国农学通报, 10(5):24-25. (Zhao Z, Cui W. 1994. Study on photoperiod-sensitive male sterility in the hybrid progeny of millet from different regions[J]. Chinese Agricultural Science Bulletin, 10(5):24-25.)
[44]赵治海, 崔文生, 杜贵, 等.1996. 谷子光(温)敏不育系821选育及其不育性与光、温关系的研究[J]. 中国农业科学, 29(5):23-31. (Zhao Z, Cui W, Du G, et al. 1996. The selection of millet photo (thermo) sensitive sterile line 821 and a study on the relation of sterility to illumination and temperature[J]. Scientia Agricultura Sinica, 29(5):23-31.)
[45]智慧, 王永强, 李伟, 等.2007. 利用野生青狗尾草的细胞质培育谷子质核互作雄性不育材料[J]. 植物遗传资源学报, 8(3):261-264. (Zhi H, Wang Y, Li W, et al. 2007. Development of CMS material from intra-species hybridization between green foxtail and foxtail millet[J]. Journal of Plant Genetic Resources, 8(3):261-264.)
[46]朱光琴, 陈雪婷, 朱静林, 等.1994. 谷子显性雄性不育基因“Msch”的细胞质转换[J]. 西北植物学报, 14(5):33-35. (Zhu G, Chen X, Zhu J, et al. 1994. Cytoplasm substitution of dominant male gene, "Msch", in foxtail millet (Setaria italica L. Beauv.)[J]. Acta Botanica Boreali-Occidentalia Sinica, 14(5):33-35.)
[47]朱光琴, 吴权明, 马云彤.1991. 谷子Ve型不育系的选育[J]. 陕西农业科学, (1):7. (Zhu G, Wu Q, Ma Y. 1991. Selection of Ve-type sterile line in millet[J]. Journal of Shannxi Agricultural Science, (1):7.)
[48]朱启迪, 翁群珠, 张改生, 等.2015. 化学杂交剂SQ-1在谷子叶片和小穗中的残留消解动态[J]. 食品科学, 36(4):181-184. (Zhu Q, Weng Q, Zhang G, et al. 2015. Residues and decline of chemical hybridizing agent SQ-1 in leaves and spikelets of foxtail millet[J]. Food Science, 36(4):181-184.)
[49]Huang X, Yang S, Gong J, et al.2016. Genomic architecture of heterosis for yield traits in rice[J]. Nature, 537(7622):629-633.
[50]Huang X, Yang S, Gong J, et al.2015. Genomic analysis of hybrid rice varieties reveals numerous superior alleles that contribute to heterosis[J]. Nature Communication, 6:6258.
[51]Li D, Huang Z, Song S, et al.2016. Integrated analysis of phenome, genome, and transcriptome of hybrid rice uncovered multiple heterosis-related loci for yield increase[J]. Proceedings of the National Academy of Sciences, 113(41):E6026-E6035.
[52]Liu Z, Bai G, Zhang D, et al.2014a. Heterotic classes and utilization patterns in chinese foxtail millet [Setaria italica (L.) P. Beauv][J]. Agricultural Sciences, 05(14):1392-1406.
[53]Liu Z, Liu B, Zhang H, et al.2014b. The physiological basis of heterosis for potassium uptake of hybrid millet[J]. American Journal of Plant Sciences, 05(13):2006-2014.
[54]Liu Z, Zhang T, Li C, et al.2014c. Genetic diversity and classification of cytoplasm of chinese elite foxtail millet [Setaria italica (L.) P. Beauv.] germplasm[J]. Crop Science, 54(2):659.
[55]Qin F, Zhao Q, Ao G, et al.2008. Co-suppression of Si401, a maize pollen specific Zm401 homologous gene, results in aberrant anther development in foxtail millet[J]. Euphytica, 163(1):103-111.
[56]Silesa M M, Russellb W K, Baltensperger D D, et al.2004. Heterosis for grain yield and other agronomic traits in foxtail millet[J]. Crop Science, 44(6):1960-1965.
[57]Wang J, Wang Z, Yang H, et al.2013. Genetic analysis and preliminary mapping of a highly male-sterile gene in foxtail millet (Setaria italica L. Beauv.) using SSR markers[J]. Journal of Integrative Agriculture., 12(12):2143-2148.
[58]Wang R, Gao J, Mao L, et al.2002. Chromosome location of the male-sterility and yellow seedling gene in line 1066A of foxtail millet[J]. Acta Botanica Sinica., 44(10):1209-1212.
[59]Zhang H, Guo P, Wang Y, et al.2017. Assessment of male sterility and antioxidant enzyme activities induced by the chemical hybridization agent SQ-1 in foxtail millet (Setaria italica)[J]. Emirates Journal of Food and Agriculture, 29(3):212-221.
[60]Zhou G, Chen Y, Yao W, et al.2012. Genetic composition of yield heterosis in an elite rice hybrid[J]. Proceedings of the National Academy of Sciences of the United States of America, 109(39):15847-15852.
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