Nano-priming as emerging seed priming technology for sustainable agriculture—recent developments and future perspectives

Nano-priming is an innovative seed priming technology that helps to improve seed germination, seed growth, and yield by providing resistance to various stresses in plants. Nano-priming is a considerably more effective method compared to all other seed priming methods. The salient features of nanopar...

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Vydané v:	Journal of nanobiotechnology Ročník 20; číslo 1; s. 254 - 31
Hlavní autori:	Nile, Shivraj Hariram, Thiruvengadam, Muthu, Wang, Yao, Samynathan, Ramkumar, Shariati, Mohammad Ali, Rebezov, Maksim, Nile, Arti, Sun, Meihong, Venkidasamy, Baskar, Xiao, Jianbo, Kai, Guoyin
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	London BioMed Central 03.06.2022 BioMed Central Ltd Springer Nature B.V BMC
Predmet:	Abscisic acid Agriculture Analysis Antioxidants Biological membranes Biotechnology Chemistry Chemistry and Materials Science Crop yields Crops Dormancy Fertilizers Free radicals Gene expression Germination Hydrogen peroxide Hydrolysis Hydroxyl radicals Metabolites Methods Molecular Medicine Nanoparticles Nanotechnology Pesticides Plant cells Plant growth Plant metabolism Plant tissues Priming Reactive oxygen species Reactive Oxygen Species - metabolism Review Seed germination Seedlings - metabolism Seeds Signaling Starch Starch - metabolism Stimulation Surface reactions Sustainable agriculture Technology Towards nanotechnology in agrifood sciences Water - metabolism Water absorption China Nanoparticles Reactive oxygen species Sustainable agriculture Plant metabolism Seed germination
ISSN:	1477-3155, 1477-3155
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Abstract	Nano-priming is an innovative seed priming technology that helps to improve seed germination, seed growth, and yield by providing resistance to various stresses in plants. Nano-priming is a considerably more effective method compared to all other seed priming methods. The salient features of nanoparticles (NPs) in seed priming are to develop electron exchange and enhanced surface reaction capabilities associated with various components of plant cells and tissues. Nano-priming induces the formation of nanopores in shoot and helps in the uptake of water absorption, activates reactive oxygen species (ROS)/antioxidant mechanisms in seeds, and forms hydroxyl radicals to loosen the walls of the cells and acts as an inducer for rapid hydrolysis of starch. It also induces the expression of aquaporin genes that are involved in the intake of water and also mediates H 2 O 2, or ROS, dispersed over biological membranes. Nano-priming induces starch degradation via the stimulation of amylase, which results in the stimulation of seed germination. Nano-priming induces a mild ROS that acts as a primary signaling cue for various signaling cascade events that participate in secondary metabolite production and stress tolerance. This review provides details on the possible mechanisms by which nano-priming induces breaking seed dormancy, promotion of seed germination, and their impact on primary and secondary metabolite production. In addition, the use of nano-based fertilizer and pesticides as effective materials in nano-priming and plant growth development were also discussed, considering their recent status and future perspectives. Graphical Abstract
AbstractList	Abstract Nano-priming is an innovative seed priming technology that helps to improve seed germination, seed growth, and yield by providing resistance to various stresses in plants. Nano-priming is a considerably more effective method compared to all other seed priming methods. The salient features of nanoparticles (NPs) in seed priming are to develop electron exchange and enhanced surface reaction capabilities associated with various components of plant cells and tissues. Nano-priming induces the formation of nanopores in shoot and helps in the uptake of water absorption, activates reactive oxygen species (ROS)/antioxidant mechanisms in seeds, and forms hydroxyl radicals to loosen the walls of the cells and acts as an inducer for rapid hydrolysis of starch. It also induces the expression of aquaporin genes that are involved in the intake of water and also mediates H2O2, or ROS, dispersed over biological membranes. Nano-priming induces starch degradation via the stimulation of amylase, which results in the stimulation of seed germination. Nano-priming induces a mild ROS that acts as a primary signaling cue for various signaling cascade events that participate in secondary metabolite production and stress tolerance. This review provides details on the possible mechanisms by which nano-priming induces breaking seed dormancy, promotion of seed germination, and their impact on primary and secondary metabolite production. In addition, the use of nano-based fertilizer and pesticides as effective materials in nano-priming and plant growth development were also discussed, considering their recent status and future perspectives. Graphical Abstract Nano-priming is an innovative seed priming technology that helps to improve seed germination, seed growth, and yield by providing resistance to various stresses in plants. Nano-priming is a considerably more effective method compared to all other seed priming methods. The salient features of nanoparticles (NPs) in seed priming are to develop electron exchange and enhanced surface reaction capabilities associated with various components of plant cells and tissues. Nano-priming induces the formation of nanopores in shoot and helps in the uptake of water absorption, activates reactive oxygen species (ROS)/antioxidant mechanisms in seeds, and forms hydroxyl radicals to loosen the walls of the cells and acts as an inducer for rapid hydrolysis of starch. It also induces the expression of aquaporin genes that are involved in the intake of water and also mediates H 2 O 2, or ROS, dispersed over biological membranes. Nano-priming induces starch degradation via the stimulation of amylase, which results in the stimulation of seed germination. Nano-priming induces a mild ROS that acts as a primary signaling cue for various signaling cascade events that participate in secondary metabolite production and stress tolerance. This review provides details on the possible mechanisms by which nano-priming induces breaking seed dormancy, promotion of seed germination, and their impact on primary and secondary metabolite production. In addition, the use of nano-based fertilizer and pesticides as effective materials in nano-priming and plant growth development were also discussed, considering their recent status and future perspectives. Graphical Abstract Nano-priming is an innovative seed priming technology that helps to improve seed germination, seed growth, and yield by providing resistance to various stresses in plants. Nano-priming is a considerably more effective method compared to all other seed priming methods. The salient features of nanoparticles (NPs) in seed priming are to develop electron exchange and enhanced surface reaction capabilities associated with various components of plant cells and tissues. Nano-priming induces the formation of nanopores in shoot and helps in the uptake of water absorption, activates reactive oxygen species (ROS)/antioxidant mechanisms in seeds, and forms hydroxyl radicals to loosen the walls of the cells and acts as an inducer for rapid hydrolysis of starch. It also induces the expression of aquaporin genes that are involved in the intake of water and also mediates H.sub.2O.sub.2, or ROS, dispersed over biological membranes. Nano-priming induces starch degradation via the stimulation of amylase, which results in the stimulation of seed germination. Nano-priming induces a mild ROS that acts as a primary signaling cue for various signaling cascade events that participate in secondary metabolite production and stress tolerance. This review provides details on the possible mechanisms by which nano-priming induces breaking seed dormancy, promotion of seed germination, and their impact on primary and secondary metabolite production. In addition, the use of nano-based fertilizer and pesticides as effective materials in nano-priming and plant growth development were also discussed, considering their recent status and future perspectives. Nano-priming is an innovative seed priming technology that helps to improve seed germination, seed growth, and yield by providing resistance to various stresses in plants. Nano-priming is a considerably more effective method compared to all other seed priming methods. The salient features of nanoparticles (NPs) in seed priming are to develop electron exchange and enhanced surface reaction capabilities associated with various components of plant cells and tissues. Nano-priming induces the formation of nanopores in shoot and helps in the uptake of water absorption, activates reactive oxygen species (ROS)/antioxidant mechanisms in seeds, and forms hydroxyl radicals to loosen the walls of the cells and acts as an inducer for rapid hydrolysis of starch. It also induces the expression of aquaporin genes that are involved in the intake of water and also mediates H2O2, or ROS, dispersed over biological membranes. Nano-priming induces starch degradation via the stimulation of amylase, which results in the stimulation of seed germination. Nano-priming induces a mild ROS that acts as a primary signaling cue for various signaling cascade events that participate in secondary metabolite production and stress tolerance. This review provides details on the possible mechanisms by which nano-priming induces breaking seed dormancy, promotion of seed germination, and their impact on primary and secondary metabolite production. In addition, the use of nano-based fertilizer and pesticides as effective materials in nano-priming and plant growth development were also discussed, considering their recent status and future perspectives. Nano-priming is an innovative seed priming technology that helps to improve seed germination, seed growth, and yield by providing resistance to various stresses in plants. Nano-priming is a considerably more effective method compared to all other seed priming methods. The salient features of nanoparticles (NPs) in seed priming are to develop electron exchange and enhanced surface reaction capabilities associated with various components of plant cells and tissues. Nano-priming induces the formation of nanopores in shoot and helps in the uptake of water absorption, activates reactive oxygen species (ROS)/antioxidant mechanisms in seeds, and forms hydroxyl radicals to loosen the walls of the cells and acts as an inducer for rapid hydrolysis of starch. It also induces the expression of aquaporin genes that are involved in the intake of water and also mediates H.sub.2O.sub.2, or ROS, dispersed over biological membranes. Nano-priming induces starch degradation via the stimulation of amylase, which results in the stimulation of seed germination. Nano-priming induces a mild ROS that acts as a primary signaling cue for various signaling cascade events that participate in secondary metabolite production and stress tolerance. This review provides details on the possible mechanisms by which nano-priming induces breaking seed dormancy, promotion of seed germination, and their impact on primary and secondary metabolite production. In addition, the use of nano-based fertilizer and pesticides as effective materials in nano-priming and plant growth development were also discussed, considering their recent status and future perspectives. Graphical Keywords: Nanoparticles, Reactive oxygen species, Seed germination, Plant metabolism, Sustainable agriculture Nano-priming is an innovative seed priming technology that helps to improve seed germination, seed growth, and yield by providing resistance to various stresses in plants. Nano-priming is a considerably more effective method compared to all other seed priming methods. The salient features of nanoparticles (NPs) in seed priming are to develop electron exchange and enhanced surface reaction capabilities associated with various components of plant cells and tissues. Nano-priming induces the formation of nanopores in shoot and helps in the uptake of water absorption, activates reactive oxygen species (ROS)/antioxidant mechanisms in seeds, and forms hydroxyl radicals to loosen the walls of the cells and acts as an inducer for rapid hydrolysis of starch. It also induces the expression of aquaporin genes that are involved in the intake of water and also mediates H2O2, or ROS, dispersed over biological membranes. Nano-priming induces starch degradation via the stimulation of amylase, which results in the stimulation of seed germination. Nano-priming induces a mild ROS that acts as a primary signaling cue for various signaling cascade events that participate in secondary metabolite production and stress tolerance. This review provides details on the possible mechanisms by which nano-priming induces breaking seed dormancy, promotion of seed germination, and their impact on primary and secondary metabolite production. In addition, the use of nano-based fertilizer and pesticides as effective materials in nano-priming and plant growth development were also discussed, considering their recent status and future perspectives.Nano-priming is an innovative seed priming technology that helps to improve seed germination, seed growth, and yield by providing resistance to various stresses in plants. Nano-priming is a considerably more effective method compared to all other seed priming methods. The salient features of nanoparticles (NPs) in seed priming are to develop electron exchange and enhanced surface reaction capabilities associated with various components of plant cells and tissues. Nano-priming induces the formation of nanopores in shoot and helps in the uptake of water absorption, activates reactive oxygen species (ROS)/antioxidant mechanisms in seeds, and forms hydroxyl radicals to loosen the walls of the cells and acts as an inducer for rapid hydrolysis of starch. It also induces the expression of aquaporin genes that are involved in the intake of water and also mediates H2O2, or ROS, dispersed over biological membranes. Nano-priming induces starch degradation via the stimulation of amylase, which results in the stimulation of seed germination. Nano-priming induces a mild ROS that acts as a primary signaling cue for various signaling cascade events that participate in secondary metabolite production and stress tolerance. This review provides details on the possible mechanisms by which nano-priming induces breaking seed dormancy, promotion of seed germination, and their impact on primary and secondary metabolite production. In addition, the use of nano-based fertilizer and pesticides as effective materials in nano-priming and plant growth development were also discussed, considering their recent status and future perspectives. Nano-priming is an innovative seed priming technology that helps to improve seed germination, seed growth, and yield by providing resistance to various stresses in plants. Nano-priming is a considerably more effective method compared to all other seed priming methods. The salient features of nanoparticles (NPs) in seed priming are to develop electron exchange and enhanced surface reaction capabilities associated with various components of plant cells and tissues. Nano-priming induces the formation of nanopores in shoot and helps in the uptake of water absorption, activates reactive oxygen species (ROS)/antioxidant mechanisms in seeds, and forms hydroxyl radicals to loosen the walls of the cells and acts as an inducer for rapid hydrolysis of starch. It also induces the expression of aquaporin genes that are involved in the intake of water and also mediates H O or ROS, dispersed over biological membranes. Nano-priming induces starch degradation via the stimulation of amylase, which results in the stimulation of seed germination. Nano-priming induces a mild ROS that acts as a primary signaling cue for various signaling cascade events that participate in secondary metabolite production and stress tolerance. This review provides details on the possible mechanisms by which nano-priming induces breaking seed dormancy, promotion of seed germination, and their impact on primary and secondary metabolite production. In addition, the use of nano-based fertilizer and pesticides as effective materials in nano-priming and plant growth development were also discussed, considering their recent status and future perspectives.
ArticleNumber	254
Audience	Academic
Author	Wang, Yao Venkidasamy, Baskar Nile, Shivraj Hariram Nile, Arti Sun, Meihong Shariati, Mohammad Ali Xiao, Jianbo Kai, Guoyin Samynathan, Ramkumar Thiruvengadam, Muthu Rebezov, Maksim
Author_xml	– sequence: 1 givenname: Shivraj Hariram surname: Nile fullname: Nile, Shivraj Hariram organization: Laboratory for Core Technology of TCM Quality Improvement and Transformation, The Third Affiliated Hospital, School of Pharmaceutical Science, Zhejiang Chinese Medical University – sequence: 2 givenname: Muthu surname: Thiruvengadam fullname: Thiruvengadam, Muthu organization: Department of Crop Science, College of Sanghuh Life Science, Konkuk University – sequence: 3 givenname: Yao surname: Wang fullname: Wang, Yao organization: Laboratory for Core Technology of TCM Quality Improvement and Transformation, The Third Affiliated Hospital, School of Pharmaceutical Science, Zhejiang Chinese Medical University, Institute of Plant Biotechnology, School of Life Sciences, Shanghai Normal University – sequence: 4 givenname: Ramkumar surname: Samynathan fullname: Samynathan, Ramkumar organization: R&D Division, Alchem Diagnostics – sequence: 5 givenname: Mohammad Ali surname: Shariati fullname: Shariati, Mohammad Ali organization: Scientific Department, K.G. Razumovsky Moscow State University of Technologies and Management (The First Cossack University) – sequence: 6 givenname: Maksim surname: Rebezov fullname: Rebezov, Maksim organization: Department of Scientific Research, V. M. Gorbatov Federal Research Center for Food Systems – sequence: 7 givenname: Arti surname: Nile fullname: Nile, Arti organization: Department of Crop Science, College of Sanghuh Life Science, Konkuk University – sequence: 8 givenname: Meihong surname: Sun fullname: Sun, Meihong organization: Institute of Plant Biotechnology, School of Life Sciences, Shanghai Normal University – sequence: 9 givenname: Baskar surname: Venkidasamy fullname: Venkidasamy, Baskar email: baskarbt07@gmail.com organization: Department of Biotechnology, Sri Shakthi Institute of Engineering and Technology – sequence: 10 givenname: Jianbo surname: Xiao fullname: Xiao, Jianbo email: jianboxiao@yahoo.com organization: Department of Analytical Chemistry and Food Science, Faculty of Food Science and Technology, University of Vigo – sequence: 11 givenname: Guoyin orcidid: 0000-0001-7586-9067 surname: Kai fullname: Kai, Guoyin email: guoyinkai1@126.com organization: Laboratory for Core Technology of TCM Quality Improvement and Transformation, The Third Affiliated Hospital, School of Pharmaceutical Science, Zhejiang Chinese Medical University, Laboratory of Medicinal Plant Biotechnology, College of Pharmacy, Zhejiang Chinese Medical University
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/35659295$$D View this record in MEDLINE/PubMed
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Snippet	Nano-priming is an innovative seed priming technology that helps to improve seed germination, seed growth, and yield by providing resistance to various... Abstract Nano-priming is an innovative seed priming technology that helps to improve seed germination, seed growth, and yield by providing resistance to...
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SubjectTerms	Abscisic acid Agriculture Analysis Antioxidants Biological membranes Biotechnology Chemistry Chemistry and Materials Science Crop yields Crops Dormancy Fertilizers Free radicals Gene expression Germination Hydrogen peroxide Hydrolysis Hydroxyl radicals Metabolites Methods Molecular Medicine Nanoparticles Nanotechnology Pesticides Plant cells Plant growth Plant metabolism Plant tissues Priming Reactive oxygen species Reactive Oxygen Species - metabolism Review Seed germination Seedlings - metabolism Seeds Signaling Starch Starch - metabolism Stimulation Surface reactions Sustainable agriculture Technology Towards nanotechnology in agrifood sciences Water - metabolism Water absorption
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Title	Nano-priming as emerging seed priming technology for sustainable agriculture—recent developments and future perspectives
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