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草业学报 ›› 2016, Vol. 25 ›› Issue (11): 160-166.DOI: 10.11686/cyxb2016128

• 研究简报 • 上一篇    下一篇

AtmiR156a调控菊苣营养生长与品质

李小冬, 蔡璐, 张瑜, 王茜, 莫本田, 韩永芬, 王小利*   

  1. 贵州省草业研究所,贵州 贵阳 550006
  • 收稿日期:2016-03-23 出版日期:2016-11-20 发布日期:2016-11-20
  • 通讯作者: *通信作者Corresponding author. E-mail: guhongru@aliyun.com
  • 作者简介:李小冬(1984-),男,湖南邵阳人,副研究员,博士。 E-mail: lixiaodongzl@163.com
  • 基金资助:
    贵州省联合基金项目“利用AtmiR156a培育高产耐刈菊苣种质新材料”(黔科合J字LKN[2013]04号),贵州主要优良牧草种质资源发掘与创新利用研究农科院自主创新科研专项(黔农科院自主创新科研专项字[2014]010号)和贵州省农业科学院博士启动基金“四倍体菊苣种质创新应用研究”(黔农科院人才启动项目[2013]01)资助

AtmiR156a regulates the vegetative growth and forage quality of chicory (Cichorium intybus)

LI Xiao-Dong, CAI Lu, ZHANG Yu, WANG Qian, MO Ben-Tian, HAN Yong-Fen, WANG Xiao-Li*   

  1. Guizhou Institute of Prataculture, Guiyang 550006, China
  • Received:2016-03-23 Online:2016-11-20 Published:2016-11-20

摘要: 菊苣是南方草地生态畜牧业发展的重要牧草资源,其产量与植物营养生长阶段长短密切相关。本研究采用转基因的方法将拟南芥AtmiR156a在菊苣中过量表达,获得了140株转基因植株,PCR检测阳性率达94.3%。荧光定量PCR分析发现转基因菊苣中AtmiR156a表达量上调7.9倍。AtmiR156a过量表达菊苣与野生型菊苣的发芽率基本相当,但其叶片发生速率显著比野生型快,抽薹时间比野生型推迟20.2 d,开花推迟27.3 d,但是株高比野生型要矮,年均产草量与野生型基本相当。分析第一茬草的品质性状发现AtmiR156a过量表达菊苣叶片中粗蛋白含量比野生型高3.7%,纤维素降低2%,其他品质性状在两个材料中没有显著差异。本研究不仅建立了高效的菊苣遗传转化体系,培育出晚花、速生的菊苣新种质资源,为培育高产耐刈菊苣新品种奠定基础,同时为开展借助其他农作物重要功能基因进行菊苣遗传改良的研究工作提供借鉴,具有重要的理论研究与实际应用价值。

Abstract: Chicory is an important forage plant for animal husbandry in south China. The yield of chicory is closely related to the length of the plants’ vegetative growth phase. In this study, Arabidopsis AtmiR156a was over-expressed in chicory and a total of 140 independent lines of transgenic plants were obtained. PCR analysis detected 94.3% positive expression in these plants. q-PCR analysis showed that, compared with the wild-type chicory used as control, the expression of AtmiR156a was promoted by 7.9 times in the transgenic plants. Germination rates for the AtmiR156a over-expressed lines were similar to that of the control, but the leaf emergence rate was significantly faster. Bolting time and flowering time were delayed by 20.2 and 27.3 days respectively in the AtmiR156a over-expressed lines. However, plant height was reduced, which led to similar annual forage yields for both the wild type and transgenic plants. Forage quality was analyzed via a first cutting of leaves. The results showed that crude protein content was 3.7% higher and fiber content was 2% lower in the AtmiR156a over-expressed lines; other quality traits showed no significant differences from the control seedlings. Our results establish an efficient method for the genetic transformation of chicory. The experiment also created a pool of late-flowering and fast-growing germplasm resources, laying a foundation for the breeding of high-yield and cutting-resistant chicory varieties. The results provide a reference for theoretical studies and practical applications aiming to improve chicory performance through the use of genes from other crops.