Studies on harnessing of Bioherbicidal Antifungal potential and Genetic structure of green synthesized copper nanoparticle of Parthenium hysterophorus L collected from various location of UP

Abstract

newlinevi newlineAbstract newlineThe biological actions of natural resources are important and well known. In the current newlinesituation, substantial resources have been spent on research and study of plant leaves extract newlineand nanoparticle development, as well as their biological functions. For the synthesis of newlinenanoparticles, Copper is the preferred metal among other metals due to its reported use in newlinemedical field as antimicrobial agents and its lethality. The objective of this research is to assess newlineMethanolic leaves extract have antibacterial and antioxidants properties and aqueous leaf newlineextract mediated copper nanoparticles of Parthenium hysterophorus. Study also revealed the newlinecomparative analysis between methanolic leaf extracts and copper nanoparticles. The shift in newlinecolor of the aqueous extract verified the formation of copper nanoparticles (CuNPs), that was newlinesubsequently validated to use an Uv - vis spectrophotometer. Metal (cu) nanoparticles, instead newlineof methanolic extract of leaves, have strong antibacterial activities toward Bacillus subtilis, newlineStaphylococcus aureus, Aspergillus flavus, Candida albicans, and Candida albicans,according newlineto the findings. These studies have verified that metal (Cu) nanoparticles have an excellent newlineantibacterial potency and thus have a lot of potential in progression of antimicrobialdrug. newlineCopper (Cu) nanoparticles were found to be a strong antioxidant when contrasted to methanolic newlineextract of leaves using the DPPH method. The viability of samples was also testedusing copper newlinenanoparticles. These findings suggest that copper (Cu) nanoparticles are a great reservoir of newlinechemotherapeutic drugs, and that copper (Cu) nanoparticle implementations centered on such newlinefindings may contribute to useful developments in areas such as medical instruments and newlineantibacterial processes. newlineKeywords: Parthenium hysterophorus, Copper- Nanoparticles, Antimicrobial, Antioxidants, newlineUv - vis spectrophotometer