Molecular mechanism of action of tetracycline-loaded calcium phosphate nanoparticle to kill multi-drug resistant bacteria.

Background: In earlier communications we reported about nanonization of the antibiotic tetracycline (Tet) by entrapping it within the biocompatible and highly membrane penetrating nano-carrier molecule - calcium phosphate nanoparticle (CPNP). The synthesized Tet-CPNP killed different Tet-resistant bacteria in vitro as well as in vivo (in mice). Moreover, such nanonized tetracycline had bactericidal mode of action, in contrast to bacteriostatic mode of action of bulk tetracycline.

Silver nano-colloid particles embedded on Langmuir-Blodgett film matrix of stearic acid serving as a SERS active sensor for detecting the herbicide 'Paraquat'.

The herbicide Paraquat, widely used for efficient weed control, poses significant health risks to humans viz., severe toxicity to vital organs and induction of neurodegenerative disorder like Parkinson's disease, underscoring the urgent need for developing sensitive detection methods for the herbicide. This study aims at fabricating a novel SERS-active substrate SA-LB/Ag (silver nano-colloids adsorbed on Langmuir-Blodgett film of stearic acid), as a SERS based sensor having high sensitivity, uniformity, and reproducibility to detect ultra-trace amounts of paraquat.

Two new oligomers of E. coli small heat-shock protein IbpB identified under heat stress exhibit maximum holding chaperone activity.

Escherichia coli small heat-shock protein IbpB (MW: 16 KDa) has holding chaperone activity and is present in cells at 30 °C as two large oligomers of MW 2.0-3.0 MDa and 600-700 KDa.

Synthesis of novel hydrophilic celastrol nanoformulation by entrapment within calcium phosphate nanoparticle and study of its antioxidant activity against neurotoxin-induced damage in human neuroblastoma cells.

Celastrol, a pentacyclic triterpenoid found in Chinese herb Tripterygium wilfordii, is considered as one of the top-five natural medicinal compounds with high antioxidant property. However, celastrol has poor aqueous solubility and thereby low bioavailability, restricting its clinical application as drug. To overcome this problem, we nanonized celastrol by entrapping it within hydrophilic nanocarrier - calcium phosphate nanoparticle.

Antibiofilm potential of nanonized eugenol against Pseudomonas aeruginosa.

Aims: The purpose of this study was to synthesize a nanoform of eugenol (an important phytochemical with various pharmacological potentials) and to investigate its antibiofilm efficacy on Pseudomonas aeruginosa biofilm.

Methods And Results: Colloidal suspension of eugenol-nanoparticles (ENPs) was synthesized by the simple ultrasonic cavitation method through the emulsification of hydrophobic eugenol into hydrophilic gelatin. Thus, the nanonization process made water-insoluble eugenol into water-soluble nano-eugenol, making the nanoform bioavailable.

Nano-Antibacterials Using Medicinal Plant Components: An Overview.

Gradual emergence of new bacterial strains, resistant to one or more antibiotics, necessitates development of new antibacterials to prevent us from newly evolved disease-causing, drug-resistant, pathogenic bacteria. Different inorganic and organic compounds have been synthesized as antibacterials, but with the problem of toxicity. Other alternatives of using green products, i.