Rapid Construction of Green Nanopesticide Delivery Systems Using Sophorolipids as Surfactants by Flash Nanoprecipitation

Ma, Enguang; Chen, Kai; Sun, Liang; Fu, Zhinan; Guo, Jiangtao; Liu, Jichang; Zhao, Jigang; Li, Yong; Lei, Zhigang; Li, Li; Hu, Xiao; Guo, Xuhong

doi:10.1021/acs.jafc.2c00743

Cited by 16 publications

(13 citation statements)

References 44 publications

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“…The current temperature-responsive polymer bottlebrushes are made with synthetic polymers that are biocompatible but are poorly biodegradable, which limit their sustainability . Future work can leverage the nanocarrier design rules learned here and develop more sustainable agrochemical carriers with more biodegradable biomaterials such as stimuli-responsive peptides, , proteins, sophorolipids, and polysaccharides . Better understanding of the translocation of polymer nanocarriers to the edible parts of crop plants, such as the fruits or grains, is also needed to assess the potential for exposure to these materials through diet.…”

Section: Discussionmentioning

confidence: 99%

Temperature-Responsive Bottlebrush Polymers Deliver a Stress-Regulating Agent In Vivo for Prolonged Plant Heat Stress Mitigation

Zhang

Martinez

et al. 2023

ACS Sustainable Chem. Eng.

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Anticipated increases in the frequency and intensity of extreme temperatures will damage crops. Methods that efficiently deliver stress-regulating agents to crops can mitigate these effects. Here, we describe high aspect ratio polymer bottlebrushes for temperature-controlled agent delivery in plants. The foliar-applied bottlebrush polymers had near complete uptake into the leaf and resided in both the apoplastic regions of the leaf mesophyll and in cells surrounding the vasculature. Elevated temperature enhanced the in vivo release of spermidine (a stress-regulating agent) from the bottlebrushes, promoting tomato plant (Solanum lycopersicum) photosynthesis under heat and light stress. The bottlebrushes continued to provide protection against heat stress for at least 15 days after foliar application, whereas free spermidine did not. About 30% of the ∼80 nm short and ∼300 nm long bottlebrushes entered the phloem and moved to other plant organs, enabling heat-activated release of plant protection agents in phloem. These results indicate the ability of the polymer bottlebrushes to release encapsulated stress relief agents when triggered by heat to provide long-term protection to plants and the potential to manage plant phloem pathogens. Overall, this temperature-responsive delivery platform provides a new tool for protecting plants against climate-induced damage and yield loss.

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Section: Discussionmentioning

confidence: 99%

Temperature-Responsive Bottlebrush Polymers Deliver a Stress-Regulating Agent In Vivo for Prolonged Plant Heat Stress Mitigation

Zhang

Martinez

et al. 2023

ACS Sustainable Chem. Eng.

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“…Nanoformulations may include the components that release AI under certain conditions, for example, at a given pH level, illumination, temperature, and humidity, as well as in the presence of certain plant enzymes [ 105 ]. Nanotechnology also makes it possible to create the liquid forms of CHs (for example, nanoemulsions) and nanoadjuvants, for example, based on biosurfactants [ 106 ]. It is assumed that the use of nanomaterials in CH formulations will increase their biological efficiency by improving the absorption and translocation of AIs in plants [ 107 ].…”

Section: Current Trends In Herbicide Developmentmentioning

confidence: 99%

Modern Approaches for the Development of New Herbicides Based on Natural Compounds

Berestetskiy

2023

Plants

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Weeds are a permanent component of anthropogenic ecosystems. They require strict control to avoid the accumulation of their long-lasting seeds in the soil. With high crop infestation, many elements of crop production technologies (fertilization, productive varieties, growth stimulators, etc.) turn out to be practically meaningless due to high yield losses. Intensive use of chemical herbicides (CHs) has led to undesirable consequences: contamination of soil and wastewater, accumulation of their residues in the crop, and the emergence of CH-resistant populations of weeds. In this regard, the development of environmentally friendly CHs with new mechanisms of action is relevant. The natural phytotoxins of plant or microbial origin may be explored directly in herbicidal formulations (biorational CHs) or indirectly as scaffolds for nature-derived CHs. This review considers (1) the main current trends in the development of CHs that may be important for the enhancement of biorational herbicides; (2) the advances in the development and practical application of natural compounds for weed control; (3) the use of phytotoxins as prototypes of synthetic herbicides. Some modern approaches, such as computational methods of virtual screening and design of herbicidal molecules, development of modern formulations, and determination of molecular targets, are stressed as crucial to make the exploration of natural compounds more effective.

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“…Nanoformulations may include the components that release AI under certain conditions, for example, at a given pH level, illumination, temperature, humidity, as well as in the presence of certain plant enzymes [105]. Nanotechnology also makes it possible to create the liquid forms of CHs (for example, nanoemulsions) and nanoadjuvants, for example, based on biosurfactants [106]. It is assumed that the use of nanomaterials in CH formulations will increase their biological efficiency by improving the absorption and translocation of AIs in plants [107].…”

Section: Formulation Of Herbicidesmentioning

confidence: 99%

Modern Approaches for the Development of New Herbicides Based on Natural Compounds

Berestetskiy¹

2022

Preprint

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Weeds are a permanent component of anthropogenic ecosystems, which requires strict control to avoid the accumulation of their long–lasting seeds in the soil. With high crop infestation, many elements of crop production technologies (fertilization, productive varieties, growth stimulators, etc.) turn out to be practically meaningless due to high yield losses. Intensive use of chemical herbicides (CH) has led to undesirable consequences: contamination of soil and wastewater, accumulation of their residues in the crop, the emergence of CH-resistant populations of weeds. In this regard, the development of environmentally friendly CH with new mechanisms of action is relevant. Natural phytotoxins of plant or microbial origin may be directly explored in herbicidal formulations (biorational CH) or indirectly as scaffolds for nature-derived CH. This review considers: 1) the main current trends in the development of CH that may be important for enhancement of biorational herbicides; 2) advances in the development and practical application of natural compounds for weed control; 3) the use of phytotoxins as prototypes of synthetic herbicides. Some modern approaches such as computational methods of virtual screening and design herbicidal molecules, development of modern formulations, determination of molecular targets are stressed as important to make exploration of natural compounds more effective.

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Rapid Construction of Green Nanopesticide Delivery Systems Using Sophorolipids as Surfactants by Flash Nanoprecipitation

Cited by 16 publications

References 44 publications

Temperature-Responsive Bottlebrush Polymers Deliver a Stress-Regulating Agent In Vivo for Prolonged Plant Heat Stress Mitigation

Temperature-Responsive Bottlebrush Polymers Deliver a Stress-Regulating Agent In Vivo for Prolonged Plant Heat Stress Mitigation

Modern Approaches for the Development of New Herbicides Based on Natural Compounds

Modern Approaches for the Development of New Herbicides Based on Natural Compounds

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