Bimetallic Ag@ZnO NCs synthesized from Crocus sativus extract show promising anti-cancer properties against cervical cancer, outperforming other nanoparticles. Research may lead to improved cancer therapy methods.
Melatonin and hydrogen sulfide help plants cope with heavy metal stress. Combined application is more effective in alleviating oxidative damage caused by cadmium, improving plant growth and tolerance to heavy metals.
Vincarostine A (1), a unique alkaloid from Catharanthus roseus, has potential as an anti-malarial drug. Its structure and stereocenters were determined using NMR and CD data.
Nanoparticles rejuvenate aging Cajanus cajan seeds, improving germination and viability by regulating redox status, gene expression, and hormonal balance. This research shows potential for nanotechnology in agriculture and the importance of using nano zinc oxide for seed treatment.
PGPB strain LDS17 isolated from rhizosphere promotes plant growth, inhibits fungi, increases enzyme activity, microbial diversity, and heavy metal resistance. Potential use in microbial fertilizers for sustainable plant growth and stress tolerance. Important for improving agricultural practices and environmental sustainability.
Chamomile root fermentation produces stable, antioxidant-rich extracts with antibacterial properties, ideal for medicinal and cosmetic use without synthetic preservatives.