RGG1 transgenic rice plants and their physiological characteristics relation to salinity stress

Durga Madhab Swain; Ranjan Kumar Sahoo; Narendra Tuteja

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RGG1 transgenic rice plants and their physiological characteristics relation to salinity stress

机译：RGG1转基因水稻植物及其与盐度应力的生理特性

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The heterotrimeric G-protein complex, comprising of G a, G p, and G subunits. It is an evolutionarily conserved-signaling molecular machine which transmits signals from transmembrane receptors to downstream target proteins. Now-a-days their functions in plant stress-signalling have been reported. Here we report the physiological function of rice G-protein % subunit (RGG1) rice (Oryza sativa L. cv. IR64) plants under salinity stress in T} generation. The overexpression of CaMV35Spromoter driven RGG1 intransgenic rice confers high salinity (200 mM NaCl) stress tolerance. Agronomic parameters were studied and found to be higher in the transgenic plants with respect to wild type (WT) plants.

机译：异络G-蛋白质复合物，包含G A，G P和G 亚基。它是一种进化的保守信令分子机，其将信号从跨膜受体传输到下游靶蛋白。现在，已经报道了他们在植物压力信令中的功能。在这里，我们报告了水稻G-蛋白％亚基（RGG1）米（Oryza Sativa L.CV.St64）植物在T}中的盐度胁迫下的生理功能。 CAMV35SPROMOTER驱动的RGG1 Intranscinic Rice的过表达赋予高盐度（200mM NaCl）应力耐受性。研究了农艺参数，发现转基因植物相对于野生型（WT）植物更高。

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来源
《Oryza》 |2017年第1期|共8页
作者
Durga Madhab Swain; Ranjan Kumar Sahoo; Narendra Tuteja;
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作者单位

International Centre for Genetic Engineering and Biotechnology Aruna AsafAli Marg New Delhi-110067 India;

International Centre for Genetic Engineering and Biotechnology Aruna AsafAli Marg New Delhi-110067 India;

Amity University Noida - 201313 Uttar Pradesh India;

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原文格式 PDF
正文语种 eng
中图分类禾谷类作物;
关键词
Antioxidative enzymes; G-protein gamma interacting partners; oxidative stress; hormones; RGG1; salinity stress tolerance; transgenic rice;

机译：抗氧化酶;G-蛋白γ相互作用的伴侣;氧化应激;激素;RGG1;盐度应力耐受;转基因米;

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1. RGG1 transgenic rice plants and their physiological characteristics relation to salinity stress [J] . Durga Madhab Swain, Ranjan Kumar Sahoo, Narendra Tuteja Oryza . 2017,第1期

机译：RGG1转基因水稻植物及其与盐度应力的生理特性
2. Physiological characteristics, gas exchange, and plant ion relations of quinoa to different saline groundwater depths and water salinity [J] . Talebnejad Rezvan, Sepaskhah Ali Reza Archives of Agronomy and Soil Science . 2016,第10a12期

机译：藜麦的生理特性，气体交换和植物离子与不同盐分地下水深度和水盐度的关系
3. PDH45 overexpressing transgenic tobacco and rice plants provide salinity stress tolerance via less sodium accumulation [J] . Manoj Nath, Bharti Garg, Ranjan Kumar Sahoo, Plant signaling & behavior . 2015,第4期

机译：过表达PDH45的转基因烟草和水稻植物通过较少的钠积累提供盐分胁迫耐受性
4. Production of abiotic stress-tolerant transgenic rice plants [C] . A. Grover, S. Katiyar-Agarwai, M. Agarwal, International Rice Genetics Symposium . 2008

机译：产生非生物胁迫转基因水稻植物
5. Salicaceae Endophyte Impacts on Physiological Functions of Host Plants: Water Relations, Photosynthesis, and Respiration in Rice ( Oryza sativa) [D] . Rho, Hyungmin Tony. 2018

机译：水杨科内生菌对寄主植物生理功能的影响：水的关系，光合作用和稻谷中的呼吸作用
6. PDH45 overexpressing transgenic tobacco and rice plants provide salinity stress tolerance via less sodium accumulation [O] . Manoj Nath, Bharti Garg, Ranjan Kumar Sahoo, 2015

机译：过表达PDH45的转基因烟草和水稻植株通过减少钠积累提供盐分胁迫耐受性
7. The Role of Root System of Rice Plant in Relation to the Physiological and Morphological Characteristics of Aerial Parts : II. Interrelationships of aerial parts and root characteristics in mutated strains of rice plants [O] . Yasuo OTA, Jong Hoon LEE 1970

机译：水稻植物根系对空中零件生理形态特征的作用：II。稻草突变菌株中的空中零件和根特征的相互关系
8. Linking Physiological Responses, Chlorophyll Fluorescence and Hyperspectral Imagery to Detect Salinity Stress Using the Physiological Reflectance Index in the Coastal Shrub, Myrica cerifera. [R] . D. R. Young J. C. Naumann J. E. Anderson 2008

机译：利用沿海灌木杨梅的生理反射指数将生理响应，叶绿素荧光和高光谱图像联系起来检测盐度胁迫。

RGG1 transgenic rice plants and their physiological characteristics relation to salinity stress

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