Influence of nano‐zinc oxide on tropane alkaloid production, <i>h6h</i> gene transcription and antioxidant enzyme activity in <i>Hyoscyamus reticulatus</i> L. hairy roots

Asl, Kamal Rashidi; Hosseini, Bahman; Sharafi, Ali; Palazón, Javier

doi:10.1002/elsc.201800087

Cited by 62 publications

(15 citation statements)

References 45 publications

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“…(Table 1). The result was on par with the following findings application of nano particles at low concentrations improves the cell division and elongation in shoot growth (Ali et al, 2019 andAsl et al, 2019).…”

Section: Shoot Length (Cm)supporting

confidence: 72%

Influence of Nano Formulation on Augmenting the Seed Quality in Groundnut (Arachis hypogaea L.)

Tamilarasan¹,

Raja²

2020

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Background: Groundnut were mainly cultivated under rain fed condition, lack of initial seedling quality due to lower moisture conditions, it causes reduced crop yield and in sometimes it leads to crop failure. In order to overcome this problems, effective seed enhancement techniques as seed coating plays major role in maintaining the seed quality. Methods: The controlled release of bioactive molecules namely hormones gibberellic acid (GA3) as a smart delivery system can be achieved through seed coating in groundnut by exploiting advanced nanotechnology. Infusion of active ingredients as hormones (GA3) through the seed coating formulation by nano formulation methods. At nano level it influences the effects at higher level and gives best results through controlled release of hormones without any loss. Result: Due to nano formulation coating in groundnut, seeds had an effective results in all the parameters viz., imbibition rate (48%), speed of germination (5.5), germination percentage (87%), seedling length (24.7 cm), vigour index (2142), hydrolysing enzymes (α-amylase14.83 and lipase 1.481), which significantly differs from untreated seeds. Hence, it was concluded that the GA3 infused nano formulation coating at 15 ml per kilogram of seed can be used for seed quality improvement in groundnut for better seedling establishment.

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Section: Shoot Length (Cm)supporting

confidence: 72%

Influence of Nano Formulation on Augmenting the Seed Quality in Groundnut (Arachis hypogaea L.)

Tamilarasan¹,

Raja²

2020

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“…In contrast, the supplementation of nanoformulated or nano entrapped micronutrients for the slow or controlled release of nutrients would stimulate the uptake process by plants, promote the growth and productivity of crops, and contribute to maintaining soil health as well [97]. For example, in zinc deficient soil, application of nano zinc oxide at low doses positively influences the growth and physiological responses, such as shoot and root elongation, the fresh dry weight and photosynthesis in many plant species compared to the control [98,99]. Kale et al [77] also showed that application of zinc oxide nanoparticles with other fertilizer in zinc deficient soil, not only promotes nutrient use efficiency but also increases barley productivity by 91% compared to the control, whereas traditional bulk ZnSO 4 increases productivity by 31% compared to the control.…”

Section: Nanofertilizers: An Efficient Source Of Balanced Crop Nutmentioning

confidence: 99%

Applications of Nanotechnology in Plant Growth and Crop Protection: A Review

et al. 2019

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In the era of climate change, global agricultural systems are facing numerous, unprecedented challenges. In order to achieve food security, advanced nano-engineering is a handy tool for boosting crop production and assuring sustainability. Nanotechnology helps to improve agricultural production by increasing the efficiency of inputs and minimizing relevant losses. Nanomaterials offer a wider specific surface area to fertilizers and pesticides. In addition, nanomaterials as unique carriers of agrochemicals facilitate the site-targeted controlled delivery of nutrients with increased crop protection. Due to their direct and intended applications in the precise management and control of inputs (fertilizers, pesticides, herbicides), nanotools, such as nanobiosensors, support the development of high-tech agricultural farms. The integration of biology and nanotechnology into nonosensors has greatly increased their potential to sense and identify the environmental conditions or impairments. In this review, we summarize recent attempts at innovative uses of nanotechnologies in agriculture that may help to meet the rising demand for food and environmental sustainability.

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“…Iron oxide nanoparticles (FeNPs) cause tropane alkaloids hyoscyamine and scopolamine accumulation in HRCs of Hyoscyamus reticulates [70]. The H. reticulatus hairy roots treated with ZnO induced the highest levels of hyoscyamine and scopolamine [71].…”

Section: Temperature Variationmentioning

confidence: 99%

Enhanced Secondary Metabolite Production in Hairy Root Cultures Through Biotic and Abiotic Elicitors

Kaur¹,

Prakash²,

Srivastava³

et al. 2020

Reference Series in Phytochemistry

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Natural products from plants are of major pharmaceutical and therapeutic importance, several of which are often obtained from the underground parts of the concerned plants, necessitating the uprooting and killing of the whole plants. The biosynthetic capacity of "hairy roots" has appeared to closely mirror that of the roots of the parent plant from which they are derived and therefore has extensively been studied as an effective alternate system for in vitro secondary metabolite production. The growth rates and secondary metabolite yields of such transformed roots have also been improved by adopting several measures, such as: by alterations in nutrient composition, carbohydrate source and their levels,

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Influence of nano‐zinc oxide on tropane alkaloid production, h6h gene transcription and antioxidant enzyme activity in Hyoscyamus reticulatus L. hairy roots

Cited by 62 publications

References 45 publications

Influence of Nano Formulation on Augmenting the Seed Quality in Groundnut (Arachis hypogaea L.)

Influence of Nano Formulation on Augmenting the Seed Quality in Groundnut (Arachis hypogaea L.)

Applications of Nanotechnology in Plant Growth and Crop Protection: A Review

Enhanced Secondary Metabolite Production in Hairy Root Cultures Through Biotic and Abiotic Elicitors

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