研究和评论:材料科学杂雷竞技苹果下载志》上
菜单ISSN: 2321 - 6212
ISSN: 2321 - 6212
K N Guruprasad Pinke帕特尔
印度先生Vaishnav科学研究所
ScientificTracks抽象:启J垫。Sci >
DOI:10.4172 / 2321 - 6212 c6 - 029
玉米(玉米品种:恒河安全)种子处理200吨的静态磁场强度(SMF)显示增强的萌发和幼苗活力。这种刺激会导致更好的植物生长,提高植物的产量在野外条件下。最初的生化事件后不久,治疗与SMF分析了种子。SMF治疗诱发生产活性氧(ROS)和一氧化氮(NO)除了提高淀粉酶酶的活性。抑制剂不像钨酸钠(ST)和N-nitro-L精氨酸甲酯盐酸盐(L-NAME)由SMF抑制促进幼苗生长。同样diphenyleneiodonium (DPI), NADPH-oxidase酶的抑制剂产生活性氧,抑制SMF促进幼苗生长。相反,硝普酸钠(SNP),没有的捐赠者,促进SMF刺激增长。SMF的生化信号传导促进发芽和幼苗生长是通过ROS的产生,也没有。活性氧可以直接降低材料的储存食物的淀粉的种子。没有发芽是一种已知的刺激器和淀粉酶酶的激活剂。 The receptors of the magnetic field in the seeds which stimulate the production of these radicals are yet to be ascertained. Recent Publications 1. Sunita Kataria, Lokesh Baghel and K N Guruprasad (2017) Pre-treatment of seeds with static magnetic field improves germination and early growth characteristics under salt stress in maize and soybean. Biocatalysts and Agricultural Biotechnology 10:83-90. 2. Sunita Kataria, Lokesh Baghel and K N Guruprasad (2017) Alleviation of adverse effects of ambient UV stress on growth and some potential physiological attributes in soybean (Glycine max) by seed pre-treatment with static magnetic field. Journal of Plant Growth Regulation 36:550–565. 3. A Fatima, S Kataria, L Baghel, K N Guruprasad, A K Agrawal, B Singh, P S Sarkar, T Shripathi and Y Kashyap (2017) Synchrotron-based phase-sensitive imaging of leaves grown from magneto-primed seeds of soybean. Journal of Synchrotron Radiation 24:232–239. 4. Pinke Patel, Guruprasad Kadur Narayanaswamy, Sunita Kataria and Lokesh Baghel (2017) Involvement of nitric oxide in enhanced germination and seedling growth of magneto primed maize seeds. Plant Signaling and Behaviour 12(12):e1293217. 5. M B Shine, S Kataria and K N Guruprasad (2017) Enhancement of maize seeds germination by magneto priming in perspective with reactive oxygen species. Journal of Agriculture and crop Research 5(4):66-76.
K N Guruprasad先生是一个主任Vaishnav科学研究所SVVV,印多尔、中央邦、印度。他光生物学领域的工作和magneto-biology 30多年了,超过85个研究论文发表在期刊的国际名声。他的工作在提高农作物产量磁场治疗获得农业领域的重要性作为一个非侵入性的物理方法,可以提高农作物的性能。
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