AI Article Synopsis

  • - Nanotechnology in agriculture shows promise but faces challenges like high costs and limited understanding of how engineered nanomaterials interact with plants.
  • - A study on the use of iron oxide magnetic nanoparticles (MNPs) for seed priming in pepper seeds revealed significant improvements in plant growth compared to traditional seed treatments.
  • - The research also indicated extensive changes at the genetic level, with over 2,200 genes related to plant growth and defense being activated, suggesting that MNPs not only enhance physical growth but also prepare plants for environmental stress.

Article Abstract

Nanotechnology has the potential to revolutionize agriculture with the introduction of engineered nanomaterials. However, their use is hindered by high cost, marginal knowledge of their interactions with plants, and unpredictable effects related to massive use in crop cultivation. Nanopriming is an innovative seed priming technology able to match economic, agronomic, and environmental needs in agriculture. The present study was focused on unveiling, by a multilevel integrated approach, undisclosed aspects of seed priming mediated by iron oxide magnetic nanoparticles in pepper seeds (), one of the most economically important crops worldwide. Inductively coupled plasma atomic emission mass spectrometry and scanning electron microscopy were used to quantify the MNP uptake and assess seed surface changes. Magnetic resonance imaging mapped the distribution of MNPs prevalently in the seed coat. The application of MNPs significantly enhanced the root and vegetative growth of pepper plants, whereas seed priming with equivalent Fe concentrations supplied as FeCl did not yield these positive effects. Finally, global gene expression by RNA-sequencing identified more than 2,200 differentially expressed genes, most of them involved in plant developmental processes and defense mechanisms. Collectively, these data provide evidence on the link between structural seed changes and an extensive transcriptional reprogramming, which boosts the plant growth and primes the embryo to cope with environmental challenges that might occur during the subsequent developmental and growth stages.

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Source
http://dx.doi.org/10.1021/acsnano.3c06172DOI Listing

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