Quantitative phytochemical profile, cholinesterase enzyme inhibition assay, antibacterial and antioxidant activities of Sarcococca saligna.

Aqueous methanol extracts of Sarcococca saligna leaves and roots were used in this work to explore its phytochemical contents, antioxidant, enzyme inhibition and antibacterial activities. Total phenolic contents were found to be in higher concentrations then total flavonoids contents in aqueous methanolic extracts of leaves. Antioxidant activity was performed using DPPH radical scavenging assay. In our findings both leaves and roots extracts were found to show substantial antioxidant potential. Aqueous methanolic extracts of both the leaves and roots gave significant inhibition against butyryl cholinesterase whereas against acetyl cholinesterase extracts of roots gave significant inhibition. The results were compared with the standard drug Eserine. The aqueous methanolic extract of leaves, roots and crude saponins isolated from leaf extracts gave moderate to significant antibacterial activity against the tested bacterial strains using agar disc diffusion method. According to the conclusions, S. saligna possesses significant antioxidant, enzyme inhibition, and antibacterial activities. Hence it is assumed that S. saligna has the potential to be used in the discovery and development of new bioactive compounds.

Antimicrobial efficacy of phyto-synthesized silver nanoparticles using aqueous leaves extract of Rosamarinus officinalis L.

The current research investigation demonstrated that the aqueous leaves extract of Rosamarinus officinalis possesses cardinal phyto-chemicals to fabricate AgNPs in an eco-friendly way. The phyto-synthesized AgNPs were characterized to be stable, monodispersed, polycrystalline and mostly spheroidal in conformation. The nano-spheriods were observed to be 25-75 nm in diameter, displaying λmax peak at 430 nm. From the comparative antimicrobial investigations, it was observed that AgNPs manifested tremendous bactericidal properties against all test organisms particularly S. epidermis (89%), S. aureus (84%) and K. pneumonia (84%), owing least MIC values of 40µL. The aced fungicidal activity was also exhibited by AgNPs against all fungal test species particularly C. herbarum (90%), A. flavus (85%), R. stolonifer (85%) and C. jadinii (85%). In contrast to AgNPs, all crude ethanolic, aqueous, methanolic and n-hexanoic extracts manifested less to moderate antimicrobial activity against all test micro-organisms with three-fold escalating MIC values i.e., 160µL.

Antimicrobial activity of AgNO3 nanoparticles synthesized using Valeriana wallichii against ESKAPE pathogens.

The emergence of multidrug-resistant ESKAPE infections has emerged as a serious public health threat. Nosocomial infections are most often caused by ESKAPE bacteria. To combat multidrug-resistant ESKAPE, the research team used Valeriana Wallichii extracts and nanoparticles. The well diffusion technique was used to test antimicrobial activity on Muller Hinton agar medium. The FTIR, SEM and XRD techniques were used to characterize the nanoparticles synthesized in an environmentally benign manner. Both NPs performed better than extracts made with methanol and water in this investigation. The smallest zones of inhibition were shown against A. baumannii and Enterobacter cloacae, whereas the largest zones of inhibition were seen against E. faecium. However, NPs synthesized from shoot extracts exhibited remarkable effects against all MDR ESKAPE infections, with zones of inhibition of 23, 20, 12, 18, 22 and 14mm, respectively. Although E. faecium. had the largest inhibitory zone in both methanolic root and shoot extracts (19mm and 22mm, respectively), K. pneumonia and E. cloacae had the smallest zones when tested with these solvents. Water-based extracts inactivated multidrug-resistant bacteria. Our research show that extracts and nanoparticles have stronger antibacterial efficiency because biologically active substances including Terpenoids, Alkaloids, Phenol and Pholobutannins affect people and microbe.