Journal
JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY
Volume -, Issue -, Pages -Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.jafc.2c08065
Keywords
calluses; cells; nanoparticles; micropropagation; byproducts; instrumentation
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Somatic embryogenesis is crucial for high productivity in plant culture, and its combination with nanotechnology holds potential for the development of concepts in Agriculture 4.0. This perspective explores the application of nanoparticles in micropropagation processes and the production of byproducts, along with nanotoxicological aspects and the use of up-to-date instrumentation in these studies.
Somatic embryogenesis is an essential technology for high productivity in plant culture, and with the advent of nanotechnology, the synergism between these areas could be the answer to developing concepts involving Agriculture 4.0. This perspective permeates both areas, presenting the opportunities and challenges for the consolidation of ideas involving the application of nanoparticles to micropropagation processes (callus induction, preservation, growing, and modification, among others) and also to the production of byproducts (such as biosynthesis of nanoparticles and production of secondary metabolites). Nanotoxicological aspects are also emphasized as well as up-to-date instrumentation involved in these studies.
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