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Nanobiotechnology can boost crop production and quality: first evidence from increased plant biomass fruit yield and phytomedicine content in bitter melon (Momordica charantia)

机译：纳米生物技术可以提高农作物的产量和质量：苦瓜中植物生物量果实产量和植物药含量的增加首先证明了这一点（Momordica charantia）

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摘要

BackgroundRecent research on nanoparticles in a number of crops has evidenced for enhanced germination and seedling growth, physiological activities including photosynthetic activity and nitrogen metabolism, mRNA expression and protein level, and also positive changes in gene expression indicating their potential use in crop improvement. We used a medicinally rich vegetable crop, bitter melon, as a model to evaluate the effects of seed treatment with a carbon-based nanoparticle, fullerol [C60(OH)20], on yield of plant biomass and fruit characters, and phytomedicine contents in fruits.

机译：背景技术最近对许多农作物中的纳米颗粒进行的研究证明，其发芽和幼苗生长增强，包括光合活性和氮代谢，mRNA表达和蛋白质水平在内的生理活性以及基因表达的积极变化表明其在作物改良中的潜在用途。我们以药用丰富的蔬菜作物苦瓜为模型，评估了碳基纳米颗粒富勒醇[C60（OH）20]对种子处理对植物生物量和果实性状以及番茄中植物药含量的影响。水果。

著录项

期刊名称 BMC Biotechnology
作者
Chittaranjan Kole; Phullara Kole; K Manoj Randunu; Poonam Choudhary; Ramakrishna Podila; Pu Chun Ke; Apparao M Rao; Richard K Marcus;
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作者单位

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年(卷),期 2013(13),-1
年度 2013
页码 37
总页数 10
原文格式 PDF
正文语种
中图分类应用微生物学;
关键词
Nanoparticles Fullerol Bitter melon Seed treatment Uptake Accumulation Fruit yield Plant biomass Phytomedicine content Water content;

机译：纳米颗粒;富勒醇;苦瓜;种子处理;吸收;积累;水果产量;植物生物量;植物药含量;水含量;
入库时间 2022-08-17 14:36:51

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专利

1. Nanobiotechnology can boost crop production and quality: first evidence from increased plant biomass, fruit yield and phytomedicine content in bitter melon (Momordica charantia) [J] . Chittaranjan Kole, Phullara Kole, K Manoj Randunu, BMC Biotechnology . 2013,第1期

机译：纳米生物技术可以提高农作物的产量和质量：苦瓜中植物生物量，果实产量和植物药含量增加的第一个证据
2. Effect of plant growth regulators on sex expression, fruit setting, seed yield and quality in the parental lines for hybrid seed production in bitter gourd (Momordica charantia) [J] . Nagamani S., Basu Sudipta, Singh Sukhbir, The Indian Journal of Agricultural Sciences . 2015,第9期

机译：植物生长调节剂对苦瓜杂交种子生产亲本的性别表达，坐果，种子产量和品质的影响
3. The Effect of Cultivation Ways on Selected Morphological Characters of Bitter Gourd (Momordica charantia L.) Transplants and Plants, Fruit Yield and Chemical Content [J] . Arkadiusz FOHS, Zbigniew KREJPCIO, Ewelina KRáL, Bulletin of University of Agricultural Sciences and Veterinary Medicine Cluj-Napoca: Horticulture . 2014,第1期

机译：栽培方式对苦瓜（Mormordica charantia L.）移栽和选择的形态特征，果实产量和化学含量的影响
4. TOMATO TRANSPLANT HEIGHT RESTRICTION WITH ABA HAS NO DELETERIOUS EFFECT ON CROP YIELD AND FRUIT QUALITY [C] . Albert Liptay Annual Meeting of the Plant Growth Regulation Society of America . 2002

机译：与ABA的番茄移植高度限制对作物产量和水果质量没有有害影响
5. The effects of various processing methods on the momordicosides K and L contents, and the sensory characteristics of bitter melon vegetable (Momordica charantia L.). [D] . Donya, Alice. 2007

机译：各种加工方法对苦瓜苷K和L含量以及苦瓜蔬菜（Momordica charantia L.）的感官特性的影响。
6. Bitter Melon (Momordica charantia L.) Fruit Bioactives Charantin and Vicine Potential for Diabetes Prophylaxis and Treatment [O] . Mahwish, Farhan Saeed, M. Tauseef Sultan, 2021

机译：苦瓜（Momordica Charantia L.）果实生物生物生物蛋白和糖尿病预防和治疗的潜力
7. Nanobiotechnology can boost crop production and quality: first evidence from increased plant biomass, fruit yield and phytomedicine content in bitter melon () [O] . 2013

机译：纳米生物技术可以提高农作物的产量和质量：植物生物量，水果产量和苦瓜中植物药含量增加的第一个证据（）

Nanobiotechnology can boost crop production and quality: first evidence from increased plant biomass fruit yield and phytomedicine content in bitter melon (Momordica charantia)

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