Scientia Agricultura Sinica ›› 2012, Vol. 45 ›› Issue (23): 4939-4946.doi: 10.3864/j.issn.0578-1752.2012.23.022

• RESEARCH NOTES • Previous Articles     Next Articles

Genetic Effects of Holding Curing Potential in Flue-Cured Tobacco

 HAO  Xian-Wei, XU  Xiu-Hong, XU  Jia-Lai, CUI  Sheng-Li, WANG  Chuan-Yi, ZHANG  Xing-Wei, REN  Xia, ZHU  Pei, ZHANG  Zhong-Feng   

  1. 1.Tobacco Research Institute of Chinese Academy of Agricultural Sciences/Key Laboratory of Tobacco Biology and Processing, Ministry of Agriculture, Qingdao 266101, Shandong
    2.Graduate School of Chinese Academy of Agricultural Sciences,Beijing 100081
    3.Shandong Tobacco Academy, Ji’nan 250101; 4Zibo Tobacco Company Limited, Zibo 255035, Shandong
  • Received:2012-08-20 Online:2012-12-01 Published:2012-11-05

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Abstract: 【Objective】 The browning time is an important indicator to measure the holding potential of flue-cured tobacco. This property has long been exploited to elucidate the genetic effects of holding potential in flue-cured tobacco.【Method】The quantifying standard was formulated by observing and calculating the browning indexes (BI = ∑ B/n) via an experiment under dark condition. The holding curing potential of 6 generations (P1, P2, F1, F2, B1 and B2 ) derived from two crosses (Yunyan85×Dabaijin599 and Zhongyan100×Cuibi1) were genetically analyzed with the mixed major-gene plus polygene inheritance model. 【Result】The holding curing potential of flue-cured tobacco was largely controlled by two major genes having additive-dominance- epistatic effect along with polygenes having additive-dominance-epistatic effects (Model E-0). The two major genes controlling the holding potential were found having negative additive effect. The heritability of all major genes was higher for the two crosses and the F2 generation showed the highest heritability. The heritability of polygenes was lower than major genes in all the segregating generations.【Conclusion】 Based on the genetic effects of holding potential of flue-cured tobacco varieties, it is essential to pay special attention to the parental material and the high generation in selecting the holding curing potential trait.

Key words: flue-cured tobacco, holding curing potential, major-gene plus polygene, genetic analysis

[1]国家烟草专卖局. 烤烟品种烘烤特性评价. 北京: 中国标准出版社, 2009.

China National Tobacco Monopoly Bureau. Evaluation for Curing Characteristics of Flue-cured Tobacco. Beijing: China Standard Press, 2009. (in Chinese)

[2]王传义. 不同烤烟品种烘烤特性研究[D]. 北京: 中国农业科学院, 2008.

Wang C Y. Study on the leaf flue curing characteristics of different varieties of flue-cured tobacco[D]. Beijing: Chinese Academy of Agricultural Sciences, 2008. (in Chinese)

[3]藤田茂隆, 田岛智之. 烤烟易烤性的遗传及香吃味. 中国烟草科学, 1984(3): 45-48.

Fujita S T, Tajima T. Genetic and aroma analysis of easy curing potential in flue-cured tobacco. Chinese Tobacco Science, 1984(3): 45-48. (in Chinese)

[4]唐经祥, 孙敬权, 任四海, 翟松卫, 何厚民. 烤烟不同品种烘烤特性的研究初报. 安徽农业科学, 2001, 29(2): 250-252, 267.

Tang J X, Sun J Q, Ren S H, Zhai S W, He H M. Preliminary study on the baking characters of flue-cured tobacco varieties. Journal of Anhui Agricultural Sciences, 2001, 29(2): 250-252, 267. (in Chinese)

[5]倪  超. 烤烟烘烤特性的遗传研究[D]. 北京: 中国农业科学院, 2010.

Ni C. Research on inheritance of the leaf flue curing characteristics of flue-cured tobacco[D]. Beijing: Chinese Academy of Agricultural Sciences, 2010. (in Chinese)

[6]盖钧镒, 章元明, 王建康. 植物数量性状遗传体系. 北京: 科学出版社, 2003: 224-260.

Gai J Y, Zhang Y M, Wang J K. Genetic System of Quantitative Traits in Plants. Beijing: Science Press, 2003: 224-260. (in Chinese)

[7]章元明, 盖钧镒. 数量性状分离分析中分布参数估计的IECM算法. 作物学报, 2000, 26(6): 699-706.

Zhang Y M, Gai J Y. The IECM algorithm for estimation of component distribution parameters in segregating analysis of quantitative traits. Acta Agronomica Sinica, 2000, 26(6): 699-706. (in Chinese)

[8]Wang J, Podlich D W, Cooper M, DeLacy I H. Power of the joint segregation analysis method for testing mixed major-gene and polygene inheritance models of quantitative traits. Theoretical Applied Genetics, 2001, 103(5): 804-816.

[9]魏  昕, 李丽华, 王  娟, 樊庆琦, 兰  海, 吴元奇, 荣廷昭, 潘光堂. 玉米丝裂病发生的数量遗传分析. 中国农业科学, 2008, 41(8): 2235-2240.

Wei X, Li L H, Wang J, Fan Q Q, Lan H, Wu Y Q, Rong T Z, Pan G T. Quantitative genetic analysis of silk cut in maize (Zea mays L.). Scientia Agricultura Sinica, 2008, 41(8): 2235-2240. (in Chinese)

[10]Feng H, Wang W H, Xu N, Lu B, Zhang T, Chen H B. Inheritance of several plant type characters in truss tomato. Agricultural Sciences in China, 2008, 7(5): 535-541.

[11]詹秋文, 盖钧镒, 章元明, 喻德跃. 大豆对食叶性害虫的抗性遗传. 中国农业科学, 2002, 35(8): 1016-1020.

Zhan Q W, Gai J Y, Zhang Y M, Yu D Y. Inheritance of resistance of soybeans to leaf-eating insects. Scientia Agricultural Sinica, 2002, 35(8): 1016-1020. (in Chinese)

[12]戚存扣, 盖钧镒, 章元明. 甘蓝型油菜芥酸含量的主基因+多基因遗传. 遗传学报, 2001, 28(2): 182-187.

Qi C K, Gai J Y, Zhang Y M. Major gene plus polygenes inheritance of erucic acid content in Brassica napus L.. Acta Genetica Sinica, 2001, 28(2): 182-187. (in Chinese)

[13]Gai J Y, Wang J K. Identification and estimation of QTL model and effects. Theoretical and Applied Genetics, 1998, 97: 1162-1168.

[14]Wang J K, Gai J Y. Mixed inheritance model for resistance to agromyzid beanfly (Melanagromyza sojae Zehntner) in soybean. Euphytica, 2001, 122: 9-18.

[15]王日新, 任  民, 张兴伟, 常爱霞, 贾兴华, 姜自斌. 普通烟草栽培种内株高性状主基因加多基因遗传分析. 中国烟草科学, 2009, 30(2): 15-20.

Wang R X, Ren M, Zhang X W, Chang A X, Jia X H, Jiang Z B. Genetic analysis of plant height using mixed major gene plus polygenes inheritance model in culture spawn of Nicotiana tabacum L.. Chinese Tobacco Science, 2009, 30(2): 15-20. (in Chinese)

[16]蔡长春, 张俊杰, 黄文昌, 林国平, 王  毅, 程君奇, 许汝冰, 徐芳森, 柴利广. 利用DH群体分析白肋烟黑胫病抗性的遗传规律. 烟草科技, 2009(1): 54-59, 63.

Cai C C, Zhang J J, Huang W C, Lin G P, Wang Y, Cheng J Q, Xu R B, Xu F S, Chai L G. Genetic analysis of resistance of burley tobacco to black shank with DH population. Tobacco Science and Technology, 2009(1): 54-59, 63. (in Chinese)

[17]高加明, 王志德, 张兴伟, 刘艳华, 牟建民, 任  民, 徐  军. 香料烟青枯病抗性基因的遗传分析. 中国烟草科学, 2010, 31(1): 1-4.

Gao J M, Wang Z D, Zhang X W, Liu Y H, Mu J M, Ren M, Xu J. Genetic analysis on resistance to bacterial wilt in oriental tobacco. Chinese Tobacco Science, 2010, 31(1): 1-4. (in Chinese)

[18]蔡长春, 张俊杰, 黄文昌, 林国平, 王  毅, 程君奇, 徐芳森, 柴利广. 利用DH群体分析白肋烟烟碱含量的遗传规律. 中国烟草学报, 2009, 15(4): 55-60.

Cai C C, Zhang J J, Huang W C, Lin G P, Wang Y, Cheng J Q, Xu F S, Chai L G. Genetic analysis of nicotine content in DH burley tobacco population. Acta Tabacaria Sinica, 2009, 15(4): 55-60. (in Chinese)

[19]张兴伟, 王志德, 牟建民, 刘艳华, 任  民. 烤烟叶绿素含量遗传分析. 中国烟草学报, 2011, 17(3): 48-52. 

Zhang X W, Wang Z D, Mu J M, Liu Y H, Ren M. Genetic analysis of chlorophyll content in flue-cured tobacco leaf. Acta Tabacaria Sinica, 2011, 17(3): 48-52. (in Chinese)

[20]尹天水, 王树会, 石  磊. 烤烟烟叶钾含量的遗传分析. 烟草科技, 2005(5): 34-38.

Yin T S, Wang S H, Shi L. Genetic analysis of potassium content in flue-cured tobacco leaves. Tobacco Science and Technology, 2005(5): 34-38. (in Chinese)

[21]王英俊, 倪  超, 翟明泉, 徐秀红, 张兴伟, 张忠锋. 烤烟易烤性遗传分析. 作物研究, 2011, 25(1): 42-46.

Wang Y J, Ni C, Zhai M Q, Xu X H, Zhang X W, Zhang Z F. Genetic analysis of easy curing potential in flue-cured tobacco. Crop Research, 2011, 25(1): 42-46. (in Chinese)

[22]倪  超, 徐秀红, 张兴伟, 王英俊, 王传义, 贾兴华, 张忠锋, 岳  山, 张  琳, 张本强, 张艳艳. 烤烟品种易烤性相关性状的主基因+多基因遗传分析. 中国烟草科学, 2011, 32(1): 1-4.

Ni C, Xu X H, Zhang X W, Wang Y J, Wang C Y, Jia X H, Zhang Z F, Yue S, Zhang L, Zhang B Q, Zhang Y Y. Genetic analysis of easy curing potential in flue-cured tobacco with the mixed major-gene plus polygene inheritance model. Chinese Tobacco Science, 2011, 32(1): 1-4. (in Chinese)

[23]韩锦峰, 李荣兴, 韩富根, 贾琪光. 烤烟烘烤过程中多酚氧化酶活性变化规律的初步探讨. 中国烟草科学, 1984(3): 4-8.

Han J F, Li R X, Han F G, Jia Q G. Preliminary study on the polyphenol oxidase enzyme activity variation in the flue-cured tobacco during curing process. Chinese Tobacco Science, 1984(3): 4-8. (in Chinese)

[24]韩富根, 焦桂珍, 刘学芝, 路鹏翔, 姜富恩, 崔永军. 烟草叶片多酚氧化酶的提取及其特性研究. 河南农业大学学报, 1995, 29(1): 98-101.

Han F G, Jiao G Z, Liu X Z, Lu P X, Jiang F E, Cui Y J. Study on the extraction of polyphenol oxidase from tobacco leaves and its characteristics. Acta Agriculture Universitatis Henanensis, 1995, 29(1): 98-101. (in Chinese)

[25]宫长荣, 赵铭钦, 汪耀富, 金文华. 上部烟叶烘烤工艺研究. 河南农业科学, 1997, 8: 12-14.

Gong C R, Zhao M Q, Wang Y F, Jin W H. The study on flue curing technology at upper tobacco leaves. Henan Agricultural Science, 1997, 8: 12-14. (in Chinese)

[26]訾莹莹, 韩志忠, 孙福山, 温  清, 王金亮, 管志坤, 王世建, 王爱华, 王松峰, 孙帅帅, 王全明. 烤烟烘烤过程中品种间的生理生化反应差异研究. 中国烟草科学, 2011, 32(1): 61-65.

Zi Y Y, Han Z Z, Sun F S, Wen Q, Wang J L, Guan Z K, Wang S J, Wang A H, Wang S F, Sun S S, Wang Q M. Difference in physiological and biochemical changes of various flue-cured tobacco varieties during curing process. Chinese Tobacco Science, 2011, 32(1): 61-65. (in Chinese)

[27]谭效磊, 徐秀红, 王暖春, 张兴伟, 任  杰, 肖炳光, 许家来, 王卫锋, 王传义, 郝贤伟, 张忠锋. 烤烟易烤性QTL定位分析. 分子植物育种, 2012, 10(2): 201-206.

Tan X L, Xu X H, Wang N C, Zhang X W, Ren J, Xiao B G, Xu J L, Wang W F, Wang C Y, Hao X W, Zhang Z F. QTLs analysis of the easy curing potential in flue-cured tobacco. Molecular Plant Breeding, 2012, 10(2): 201-206. (in Chinese)

[28]郑建华, 孙永建, 唐  清. 上位性效应等水稻杂种优势理论的探讨与展望. 中国农学通报, 2010, 26(23): 30-36.

Zheng J H, Sun Y J, Tang Q. The discussion and prospect of some heterosis theory such as epistasis in rice. Chinese Agricultural Science Bulletin, 2010, 26(23): 30-36. (in Chinese)
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