Research Articles (Biotechnology)
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Browsing by Author "Daniel, Augustine Innalegwu"
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Item Application of nanotechnology and proteomic tools in crop development towards sustainable agriculture(Springer, 2024) Daniel, Augustine Innalegwu; Hüsselmann, Lizex; Shittu, Oluwatosin Kudirat; Gokul, ArunThe increase in global population which translates to increased demand for food called for urgent attention from key players and policy makers in agricultural sector. Also, the effects of climate change and its consequent biotic and abiotic stresses in plants has greatly affect the sustainability of agriculture and production of food. These challenges require novel and sustainable approaches to improve the quality and yield of crops. The vast application of nanoparticles in different fields of study is attributed to their distinct chemical and physical characteristics. However, in agriculture, their application is limited because of their safety concern. Currently, research is tailored to study the response of plants to various nanoparticle treatments; however, these studies are inconclusive due to limited knowledge on the mechanisms of plant–nanoparticle interactions. Recently, studies on nanobiotechnology have taken a new dimension from preliminary bioassay experiments to more complex, research-oriented studies using various omics tools. Changes in protein expression caused by plant–nanoparticle interaction at any developmental stages, or tissue types may be investigated using suitable proteomics techniques. This review discussed the various applications of nanotechnology and proteomic tools in plant growth and development. Plant–nanoparticle interactions and the application of nanoparticles and proteomic tools in genetic engineering of plants to attain agricultural sustainability and food safety are also discussed. Informative and thorough understanding of plant–nanoparticle interaction will serve as a blueprint that will enable plant scientist and genetic engineers to develop plant biomarkers and explore their potential application for crop improvement.Item Green-synthesis of MgO and ZrO2 nanocomposites: physicochemical properties and antiplasmodial activity in a mouse model(Elsevier, 2025) Oselusi, Samson Olaitan; Ameh, Alechine Emmanuel; Daniel, Augustine InnalegwuMalaria remains a significant global health burden, particularly in Sub-Saharan Africa, where drug resistance necessitates novel therapeutic strategies. This study evaluates the antiplasmodial potential of green-synthesized magnesium oxide (MgO) and zirconium oxide (ZrO2) nanoparticles and their composite (Mg/ZrO2) using Eucalyptus camaldulensis leaf extract. MgO, ZrO2, and MgO/ZrO2 nanoparticles were synthesized and characterized using scanning electron microscopy (SEM), transmission electron microscopy (TEM), and X-ray diffraction (XRD), revealing crystalline structures with particle sizes ranging from 39 to 60 nm. Acute toxicity assessment in mice indicated an LD50 > 2000 mg/kg bodyweight, confirming their safety. In vivo antiplasmodial activity was assessed using Plasmodium berghei-infected mice, with treatment groups receiving 50, 100, and 200 mg/kg bodyweight each of the nanoparticles. In the suppressive test, MgO-NPs, ZrO2-NPs, and MgO/ZrO2-NPs exhibited dose-dependent parasite inhibition of 66.79%, 34.72%, and 41.02% respectively at 200 mg/kg bodyweight. The curative test further confirmed parasite clearance, with MgO-NPs demonstrating the highest efficacy. Nanoparticle treatment also improved survival time and maintained body weight compared to untreated controls. The observed antiplasmodial effects is attributed to enhanced cellular uptake, reactive oxygen species (ROS) generation, and disruption of parasite metabolic pathways. These findings highlight the potential of MgO, ZrO₂ and MgO/ZrO2 nanocomposites as promising candidates for antimalarial drug development, warranting further mechanistic studies and preclinical validation.