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Knock-Down of CsNRT2.1 a Cucumber Nitrate Transporter Reduces Nitrate Uptake Root length and Lateral Root Number at Low External Nitrate Concentration

机译：降低黄瓜硝酸盐转运蛋白CsNRT2.1的浓度可降低外部硝酸盐浓度下的硝酸盐吸收量根长和侧根数

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摘要

Nitrogen (N) is a macronutrient that plays a crucial role in plant growth and development. Nitrate (

{NO}_{3}^{-}

) is the most abundant N source in aerobic soils. Plants have evolved two adaptive mechanisms such as up-regulation of the high-affinity transport system (HATS) and alteration of the root system architecture (RSA), allowing them to cope with the temporal and spatial variation of

{NO}_{3}^{-}

. However, little information is available regarding the nitrate transporter in cucumber, one of the most important fruit vegetables in the world. In this study we isolated a nitrate transporter named CsNRT2.1 from cucumber. Analysis of the expression profile of the CsNRT2.1 showed that CsNRT2.1 is a high affinity nitrate transporter which mainly located in mature roots. Subcellular localization analysis revealed that CsNRT2.1 is a plasma membrane transporter. In N-starved CsNRT2.1 knock-down plants, both of the constitutive HATS (cHATS) and inducible HATS (iHATS) were impaired under low external

{NO}_{3}^{-}

concentration. Furthermore, the CsNRT2.1 knock-down plants showed reduced root length and lateral root numbers. Together, our results demonstrated that CsNRT2.1 played a dual role in regulating the HATS and RSA to acquire

{NO}_{3}^{-}

effectively under N limitation.

机译：氮（N）是一种大量营养素，在植物生长和发育中起着至关重要的作用。硝酸盐（<数学xmlns：mml =“ http://www.w3.org/1998/Math/MathML” id =“ M1” overflow =“ scroll”> 否 3 - ）是好氧土壤中最丰富的氮源。植物已经进化出两种适应性机制，例如高亲和力转运系统（HATS）的上调和根系系统架构（RSA）的改变，从而使它们能够应对

否3-。但是，关于黄瓜中硝酸盐转运蛋白的信息很少，黄瓜是世界上最重要的水果蔬菜之一。在这项研究中，我们从黄瓜中分离出了名为CsNRT2.1的硝酸盐转运蛋白。对CsNRT2.1表达谱的分析表明，CsNRT2.1是一种高亲和力的硝酸盐转运蛋白，主要位于成熟根中。亚细胞定位分析表明，CsNRT2.1是质膜转运蛋白。在缺乏N的CsNRT2.1组合植物中，在低外部否3-浓度。此外，CsNRT2.1组合植物显示出降低的根长和侧根数。在一起，我们的结果表明CsNRT2.1在调节HATS和RSA以获取否3-

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期刊名称 other
作者
Yang Li; Juanqi Li; Yan Yan; Wenqian Liu; Wenna Zhang; Lihong Gao; Yongqiang Tian;
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作者单位

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年(卷),期 -1(9),-1
年度 -1
页码 722
总页数 13
原文格式 PDF
正文语种
中图分类
关键词
nitrate transporter cucumber CsNRT2.1 root growth;

机译：硝酸盐;转运蛋白;黄瓜;CsNRT2.1;根生长;

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专利

1. EFFECT OF EXTERNAL NITRATE CONCENTRATIONS ON NITRATE EFFLUX FROM ROOTS AND ACCUMULATION IN TWO BRASSICA NAPUS L. CULTIVARS [J] . Huang Caibian, Wang Zhaohui, Li Shengxiu, Journal of Plant Nutrition . 2011,第9a11期

机译：外部硝酸盐浓度对两个甘蓝型油菜根系硝酸盐排放和累积的影响
2. Nitric oxide generated by nitrate reductase increases nitrogen uptake capacity by inducing lateral root formation and inorganic nitrogen uptake under partial nitrate nutrition in rice [J] . Sun Huwei, Li Jiao, Song Wenjing, Journal of Experimental Botany . 2015,第9期

机译：硝酸盐还原酶产生的一氧化氮通过诱导水稻部分硝酸盐营养下的侧根形成和无机氮的吸收，从而增加氮的吸收能力
3. Lateral root frequency decreases when nitrate accumulates in tobacco transformants with low nitrate reductase activity: consequences for the regulation of biomass partitioning between shoots and root [J] . Stitt M, Feil R Plant and Soil . 1999,第2期

机译：当硝酸盐在硝酸盐还原酶活性低的烟草转化株中积累时，侧根频率会降低：调节芽和根之间生物量分配的后果
4. Nitrate uptake by bean (Phaseolus vulgaris L.) roots under phosphate deficiency [C] . A. Gniazdowska, A. M. Rychter International Symposium on Structure and Function of Roots . 2001

机译：硝酸盐（Phessolusulususulus L.）根源在磷酸盐缺乏下
5. CHARACTERISTICS OF NITRATE UPTAKE FROM NUTRIENT SOLUTION AND ROOT NITRATE REDUCTASE ACTIVITY AMONG CORN (ZEA MAYS L.) GENOTYPES. [D] . POLISETTY, RAGHUVEER. 1977

机译：玉米（玉米）基因型从养分吸收硝酸盐和硝酸盐还原酶活性的特征。
6. Post-Flowering Nitrate Uptake in Wheat Is Controlled by N Status at Flowering with a Putative Major Role of Root Nitrate Transporter NRT2.1 [O] . François Taulemesse, Jacques Le Gouis, David Gouache, -1

机译：小麦开花后硝酸盐的吸收受开花期氮素状态的控制其根系硝态氮转运蛋白NRT2.1可能起主要作用。
7. Post-flowering nitrate uptake in wheat is controlled by N status at flowering, with a putative major role of root nitrate transporter NRT2.1. [O] . Taulemesse, François, Le Gouis, Jacques, Gouache, David, 2015

机译：小麦开花后硝酸盐的吸收受开花时氮素状态的控制，推测其主要作用是根系硝酸盐转运蛋白NRT2.1。

Knock-Down of CsNRT2.1 a Cucumber Nitrate Transporter Reduces Nitrate Uptake Root length and Lateral Root Number at Low External Nitrate Concentration

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