Promising applications of phyto-fabricated silver nanoparticles: Recent trends in biomedicine.

The prospective contribution of phyto-nanotechnology to the synthesis of silver nanomaterials for biomedical purposes is attracting increasing interest across the world. Green synthesis of silver nanoparticles (Ag-NPs) through plants has been extensively examined recently, and it is now seen to be a green and efficient path for future exploitation and development of practical nano-factories. Fabrication of Ag-NPs is the process involves use of plant extracts/phyto-compounds (e.g.alkaloids, terpenoids, flavonoids, and phenolic compounds) to synthesise nanoparticles in more economical and feasible. Several findings concluded that in the field of medicine, Ag-NPs play a major role in pharmacotherapy (infection and cancer). Indeed, they exhibits novel properties but the reason is unclear (except some theoretical interpretation e.g. size, shape and morphology). But recent technological advancements help to address these questions by predicting the unique properties (composition and origin) by characterizing physical, chemical and biological properties. Due to increased list of publications and their application in the field of agriculture, industries and pharmaceuticals, issues relating to toxicity are unavoidable and question of debate. The present reviews aim to find out the role of plant extracts to synthesise Ag-NPs. It provides an overview of various phytocompounds and their role in the field of biomedicine (antibacterial, antioxidant, anticancer, anti-inflammatory etc.). In addition, this review also especially focused on various applications such as role in infection, oxidative stress, application in medical engineering, diagnosis and therapy, medical devices, orthopedics, wound healing and dressings. Additionally, the toxic effects of Ag-NPs in cell culture, tissue of different model organism, type of toxic reactions and regulation implemented to reduce associated risk are discussed critically. Addressing all above explanations, this review focus on the detailed properties of plant mediated Ag-NPs, its impact on biology, medicine and their commercial properties as well as toxicity.

Green synthesized Se nanoparticle-mediated alleviation of salt stress in field mustard, TS-36 variety.

During this decade, selenium nanoparticles have been found to play a crucial role in helping plants endure several stress conditions, which thereby helps enhance the production of crops in such harsh environments. Globally, high salinity is considered a long-term stress in the crop fields which affects the growth and production of many crops, including mustard-one of the most important oil crops. Here, the activities of spherical-shaped selenium nanoparticles with an average particle size of 55.81 nm, synthesized and functionalized by phytochemicals of fresh grape aqueous extract, were evaluated in the salinity stress (200 mM NaCl) tolerance of mustard plants grown hydroponically in modified Hoagland's solution. These bioactive nanoparticles (30 mg L-1) have exhibited significant activity in alleviating the salt stress complications in mustard, enhancing the activities of antioxidant enzymes (SOD 41.20 %, CAT 64.10 %, APX 63.06 %, and POX 70.43 %), phenolic content (98.88 %), flavonoid content (86.90 %), and free radical scavenging activity (61.89 %). The seed germination percentage, root and shoot length, fresh and dry weight per plant, water content percentage, chlorophyll content, carbohydrate content, and protein content were significantly improved by 39.66 %, 75 %, 60.64 %, 41.2 %, 22.11 %, 1.02 %, 81.92 %, 24.65 % and 79.14 % respectively by the nano selenium application during NaCl stress compared to the control group growing under salt stress without nanoparticles. Gas chromatography-mass spectrometry chromatogram analysis inferred the interaction between the nano-selenium and mustard plants under salt stress. Besides, the in-silico analysis revealed the active molecular interactions between selenium and 20 different proteins of mustard, including glutathione peroxidase, an important antioxidant enzyme.