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宽叶独行菜NAC基因的过表达可提高烟草生物量、缩短生命周期并诱导其耐冷胁迫:工程改造第四代生物燃料作物的潜力

Overexpression of NAC gene from Lepidium latifolium L. enhances biomass, shortens life cycle and induces cold stress tolerance in tobacco: potential for engineering fourth generation biofuel crops.

作者信息

Grover Atul, Singh Sadhana, Pandey Pankaj, Patade Vikas Yadav, Gupta Sanjay Mohan, Nasim M

机构信息

Biotechnology Division, Defence Institute of Bio-Energy Research, Goraparao, P.O. Arjunpur, Haldwani, 263139, Uttarakhand, India,

出版信息

Mol Biol Rep. 2014 Nov;41(11):7479-89. doi: 10.1007/s11033-014-3638-z. Epub 2014 Aug 9.

DOI:10.1007/s11033-014-3638-z
PMID:25106524
Abstract

We report elevated biomass and altered growth characteristics of tobacco plants up on transformation with a NAC (NAM, ATAF1/2,CUC2) gene (GenBank Accession FJ754254) isolated from Lepidium latifolium L. (LlaNAC). Transgenic plants showed significant differences in fresh weight, midrib length of longest leaf, leaf area, height of the plant, root and shoot weights, etc. during vegetative phase. On 100th day after sowing (DAS), plants of transgenic lines were 2-3 times taller than the wild type plants, though no significant difference was recorded in moisture contents of any of the plant tissues. Over-expression of NAC gene up to 2,000 fold was recorded in leaves of transgenic plants on 100th DAS. Interestingly, transgenic plants showed significantly shortened (P(t) = 0.02-0.04) life cycle, as they showed a completely altered growth behaviour. Transgenic plants entered reproductive phase earlier by 60 days, with lines NC2 and NC7b entering first, followed by line NC10. However, the time period spent in the reproductive phase by the plant was nearly twice in case of transgenic lines NC2, NC7b and NC10, as compared to the wild type plants. Despite that, these lines completed their life cycle in 45-60 days lesser than the time taken by wild-type tobacco plants. No difference was recorded in fruit and seed yield of transgenic or wild type plants. To the best of our knowledge, this is the first report on over-expression of NAC gene causing altered growth and biomass patterns. We expect this study to become an important reference towards future engineering of plants for fuel and fodder purposes.

摘要

我们报道了用从宽叶独行菜(Lepidium latifolium L.)中分离得到的一个NAC(NAM、ATAF1/2、CUC2)基因(GenBank登录号FJ754254,即LlaNAC)转化烟草植株后,其生物量增加且生长特性发生改变。转基因植株在营养生长阶段,鲜重、最长叶的中脉长度、叶面积、株高、根重和地上部分重量等方面表现出显著差异。播种后第100天(DAS),转基因株系的植株比野生型植株高2至3倍,不过任何植物组织的含水量均未记录到显著差异。在第100天DAS时,转基因植株叶片中NAC基因的过表达量高达2000倍。有趣的是,转基因植株表现出生命周期显著缩短(P(t)=0.02 - 0.04),因为它们的生长行为完全改变。转基因植株提前60天进入生殖阶段,NC2和NC7b株系最先进入,随后是NC10株系。然而,与野生型植株相比,转基因株系NC2、NC7b和NC10在生殖阶段所花费的时间几乎是其两倍。尽管如此,这些株系完成其生命周期的时间比野生型烟草植株少45至60天。转基因植株和野生型植株的果实和种子产量没有差异。据我们所知,这是关于NAC基因过表达导致生长和生物量模式改变的首次报道。我们期望这项研究能成为未来用于燃料和饲料目的植物工程的重要参考。

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