Nanovehicles for Plant Modifications towards Pest- and Disease-Resistance Traits

In agriculture, plant transformation is a versatile platform for crop improvement with the aim of increased pest resistance and an improved nutrient profile. Nanotechnology can overcome several challenges that face conventional methods of gene delivery. Specifically, nanomaterials offer an optimal p...

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Published inTrends in plant science Vol. 25; no. 2; pp. 198 - 212
Main Authors Kumar, Sandeep, Nehra, Monika, Dilbaghi, Neeraj, Marrazza, Giovanna, Tuteja, Satish K., Kim, Ki-Hyun
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.02.2020
Elsevier BV
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Abstract In agriculture, plant transformation is a versatile platform for crop improvement with the aim of increased pest resistance and an improved nutrient profile. Nanotechnology can overcome several challenges that face conventional methods of gene delivery. Specifically, nanomaterials offer an optimal platform for biomolecule delivery with unique physiochemical properties as well as the ability to traverse the challenging barrier of the plant cell wall. We review the potential of diverse nanovehicles for biomolecule delivery in plant systems to obtain desired genetic traits. The efficacy of nanoparticles against pests or pathogens is also explored, as well as the interaction of nanovehicles with plant organelles, with due consideration of the effects and toxic profile of nanoparticles. To enhance crop productivity, genetic engineering is an important technique for introducing traits of interest into plant species.The desired trait can provide increased pest resistance and an improved nutrient profile, ultimately ensuring food security.Compared with conventional methods of biomolecule delivery, modern nanotechnology offers high efficiency and diverse cargo delivery options.The unique properties of nanomaterials, such as tunable physicochemical properties and the ability to traverse the plant cell wall, can be exploited to deliver species-dependent biomolecules.Nanoparticles are also effective as micronutrients and as agents against pests or bacterial infections.
AbstractList In agriculture, plant transformation is a versatile platform for crop improvement with the aim of increased pest resistance and an improved nutrient profile. Nanotechnology can overcome several challenges that face conventional methods of gene delivery. Specifically, nanomaterials offer an optimal platform for biomolecule delivery with unique physiochemical properties as well as the ability to traverse the challenging barrier of the plant cell wall. We review the potential of diverse nanovehicles for biomolecule delivery in plant systems to obtain desired genetic traits. The efficacy of nanoparticles against pests or pathogens is also explored, as well as the interaction of nanovehicles with plant organelles, with due consideration of the effects and toxic profile of nanoparticles.
In agriculture, plant transformation is a versatile platform for crop improvement with the aim of increased pest resistance and an improved nutrient profile. Nanotechnology can overcome several challenges that face conventional methods of gene delivery. Specifically, nanomaterials offer an optimal platform for biomolecule delivery with unique physiochemical properties as well as the ability to traverse the challenging barrier of the plant cell wall. We review the potential of diverse nanovehicles for biomolecule delivery in plant systems to obtain desired genetic traits. The efficacy of nanoparticles against pests or pathogens is also explored, as well as the interaction of nanovehicles with plant organelles, with due consideration of the effects and toxic profile of nanoparticles. To enhance crop productivity, genetic engineering is an important technique for introducing traits of interest into plant species.The desired trait can provide increased pest resistance and an improved nutrient profile, ultimately ensuring food security.Compared with conventional methods of biomolecule delivery, modern nanotechnology offers high efficiency and diverse cargo delivery options.The unique properties of nanomaterials, such as tunable physicochemical properties and the ability to traverse the plant cell wall, can be exploited to deliver species-dependent biomolecules.Nanoparticles are also effective as micronutrients and as agents against pests or bacterial infections.
Author Kumar, Sandeep
Marrazza, Giovanna
Tuteja, Satish K.
Nehra, Monika
Dilbaghi, Neeraj
Kim, Ki-Hyun
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  givenname: Sandeep
  surname: Kumar
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  givenname: Giovanna
  surname: Marrazza
  fullname: Marrazza, Giovanna
  organization: Department of Chemistry 'Ugo Schiff', University of Florence, Via della Lastruccia 3, 50019 Sesto Fiorentino, Florence, Italy
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  surname: Tuteja
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  givenname: Ki-Hyun
  surname: Kim
  fullname: Kim, Ki-Hyun
  email: kkim61@hanyang.ac.kr
  organization: Department of Civil and Environmental Engineering, Hanyang University, 222 Wangsimni-Ro, Seoul 04763, Republic of Korea
BackLink https://www.ncbi.nlm.nih.gov/pubmed/31780333$$D View this record in MEDLINE/PubMed
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Issue 2
Keywords biomolecule delivery
phytotoxicity
plant modification
pest resistance
genetic engineering
nanovehicles
Language English
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Snippet In agriculture, plant transformation is a versatile platform for crop improvement with the aim of increased pest resistance and an improved nutrient profile....
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SubjectTerms Agriculture
biomolecule delivery
Biomolecules
Cell walls
Crop improvement
Crops, Agricultural
Disease Resistance
Gene transfer
genetic engineering
Genetic transformation
Humans
Nanomaterials
Nanoparticles
Nanotechnology
nanovehicles
Organelles
Pest resistance
Pests
Physiochemistry
phytotoxicity
plant modification
Title Nanovehicles for Plant Modifications towards Pest- and Disease-Resistance Traits
URI https://dx.doi.org/10.1016/j.tplants.2019.10.007
https://www.ncbi.nlm.nih.gov/pubmed/31780333
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Volume 25
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