DNA Delivery to Intact Plant Cells by Casein Nanoparticles with Confirmed Gene Expression

Ben‐Haim, Avital Ella; Feldbaum, Reut Amar; Belausov, Eduard; Zelinger, Einat; Maria, Raquel; Nativ‐Roth, Einat; Mani, Karthik Ananth; Barda, Omer; Sionov, Edward; Mechrez, Guy

doi:10.1002/adfm.202314756

Adv Funct Materials

2024

DOI: 10.1002/adfm.202314756

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DNA Delivery to Intact Plant Cells by Casein Nanoparticles with Confirmed Gene Expression

Avital Ella Ben‐Haim,

Reut Amar Feldbaum,

Eduard Belausov

et al.

Abstract: This research presents gene expression after DNA delivery into intact plant cells by protein nanoparticles. The DNA delivery is carried out by casein nanoparticles (CNPs). A plasmid harboring the red fluorescent protein DsRed sequence is absorbed to the CNPs surface by electrostatic interaction and served as a model DNA in this study, and its expression is monitored by the fluorescence of the DsRed protein. The zeta potential of the CNPs is tuned by altering the pH to obtain sufficient electrostatic interactio… Show more

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2024

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Cited by 2 publications

References 84 publications

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Neuron‐Inspired Flexible Phase Change Materials for Ambient Energy Harvesting and Respiration Monitoring

Luo,

Kong,

et al. 2024

Advanced Materials

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The global energy crisis and climate change pose unprecedented challenges. Wearable devices with personal thermoregulation and energy harvesting hold great promise for achieving energy savings and human thermal comfort. Here, inspired by neurons, a novel phase change material (PCM) is reported for efficient energy harvesting and respiratory monitoring via a self‐assembly strategy. The use of gum arabic (GA) enabled the encapsulation of polyethylene glycol (PEG) and the targeted distribution of carboxylated multi‐walled carbon nanotubes (cMWCNTs) simultaneously in poly (ethylene vinyl acetate) (EVA) matrix. The material exhibits an outstanding toughness value of 14.88 MJ m−3 and high elongation at a break of 565.67%, exhibiting remarkable flexibility. The material with sufficient melting enthalpy (71.11 J g−1) demonstrates high photothermal conversion efficiency (95.27%) under 808 nm laser irradiation (105 mW cm−2). In addition, due to the synergistic effect of GA and PEG, especially the formation of microdome structures on the surface, the material demonstrates ultrasensitive humidity responsiveness for respiratory monitoring with high precision, excellent repeatability, and fast response/recovery time (50.4/50.5 ms). Notably, it shows great potential for moisture‐electric generators (MEGs) with the function of non‐contact sensing. This material opens the path toward next‐generation wearable devices in energy conversion and health monitoring.

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Neuron‐Inspired Flexible Phase Change Materials for Ambient Energy Harvesting and Respiration Monitoring

Luo,

Kong,

et al. 2024

Advanced Materials

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Fusiform nanoparticle boosts efficient genetic transformation in Sclerotinia sclerotiorum

Ding,

Yang,

et al. 2024

J Nanobiotechnol

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DNA Delivery to Intact Plant Cells by Casein Nanoparticles with Confirmed Gene Expression

Cited by 2 publications

References 84 publications

Neuron‐Inspired Flexible Phase Change Materials for Ambient Energy Harvesting and Respiration Monitoring

Neuron‐Inspired Flexible Phase Change Materials for Ambient Energy Harvesting and Respiration Monitoring

Fusiform nanoparticle boosts efficient genetic transformation in Sclerotinia sclerotiorum

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