Phytochemical analysis and investigation of Antimicrobial and Antioxidant potential of the Leaf Extracts of Putranjiva ruxburghi

Objectives: Herbs are in use as medicine worldwide from the time immemorial. Many drugs derived from plant, animal or minerals are in use as medicine till date. This is a study on leaf extract of Putranjiva roxburghii Wall. (Euphorbiaceae) involving pharmacognosy, phytochemistry, activity against microbes and oxidation to substantiate its use. The leaf extracts were collected by successive soxhlation using solvents like petroleum ether, chloroform, benzene, acetone & ethanol. Chemicals present in the crude leaf extracts and isolated constituents were analyzed for both quality and quantity followed by TLC, UV–Visible Spectrophotometric analysis, HPTLC, Phytochemical tests and TLC examination confirmed to contain flavonoids in acetone, chloroform, aqueous and ethanol extract. The activity of Petroleum-ether, chloroform, acetone, alcoholic and aqueous extracts against the microbes was assessed by cup plate method. Okada & Okada method was followed to evaluate the DPPH free radical for aging property. The reducing, total antioxidant and peroxide radical for aging action of the extracts were assessed. The study confirmed significant antimicrobial and antioxidant property of the Putranjiva roxburghii Wall leaves may be for the presence of constituents like flavonoids, saponins, Phytosterols, favoring its traditional usage as medicine.

Antimicrobial Activity of Fuller’s Earth, Turmeric, and Sandalwood against Streptococcus Mutans, Micrococci and Coagulase Negative Staphylococci -an In vitro Study

Introduction: Sandalwood powder (Santalum alba) is used if the skin is oily for removing dark spots on the skin. Sandalwood has an anti-tanning and anti-aging property. Turmeric powder (Curcuma longa) is mainly used to rejuvenate the skin. It helps to delay aging like wrinkles and also possesses other properties like antibacterial, antiseptic, and anti-inflammatory, and many other properties. Multani mitti helps the skin in many different ways like the reduction of pore size pore sizes, removing blackheads and removing whiteheads fading freckles, soothing sunburns, cleansing skin, improving blood circulation, complexion, reducing acne and blemishes, and gives a glowing effect to your skin as they contain many-particles which can inhibit various organisms. Materials and Methods: In this investigation, the antimicrobial viability of Turmeric, sandalwood and Multani Mutti was tested against Streptococcus mutans, Micrococci, and coagulase-negative staphylococcus. The microorganisms were filled in strong media, and culture containing stock suspensions was made and, in this way, standard strains of Streptococcus mutans, Micrococci, and Coagulase-negative staphylococci were obtained. Microorganisms were subcultured in fitting society media to affirm their virtue. Results: The zone of inhibition of turmeric against Streptococcus mutans is about 11mm. The zone of inhibition of turmeric against Micrococci is about 9 mm. The zone of inhibition of turmeric against Coagulase-negative staphylococci is about 13mm. There was no zone of inhibition for both sandalwood and Multani mitti for Coagulase-negative staphylococci, Streptococcus mutans, and Micrococci. Conclusion: The study proves the turmeric has antimicrobial potential against Coagulase-negative staphylococci, Streptococcus mutans,, and Micrococci with good prospects of development into antimicrobial face pack or face wash

Facilitated propylene transport in mixed matrix membranes containing ZIF-8@Agmim core-shell hybrid material

The ZIF-8@Agmim core-shell hybrid material was synthesized via a favorable post-modification method of ion exchange (PMIE). This infrequent ZIF-8@Agmim core-shell structure maintains a well- integrated pore size that is almost the same as ZIF-8. The similar equilibrium isotherms with ZIF-8 and better kinetic separation towards propylene/propane than ZIF-8 render ZIF-8@Agmim to be an interesting candidate for propylene/propane separation. The core-shell hybrid nanomaterial was further used as nanofillers in the polymer of intrinsic microporosity matrix (PIM-1) for propylene/propane separation. The resultant MMMs exhibited a simultaneous increase in C3H6 permeability and C3H6/C3H8 ideal selectivity compared to pure polymer membrane owing to a synergistic effect of molecular sieving from ZIF-8 and π-complexation of Ag+ with propylene. The separation performance of the prepared MMM surpasses the upper bound line of polymer membranes. Furthermore, the hybrid materials possess superb photochemical stability and the corresponding MMMs exhibit excellent anti-aging property and long-term stability.

Cu3Sn-microporous copper composite joint for high-temperature die-attach applications

Purpose The purpose of this paper is to design a novel die-attach composite joint for high-temperature die-attach applications based on transient liquid phase bonding. Moreover, the microstructure, shear strength, electrical property, thermal conductivity and aging property of the composite joint were investigated. Design/methodology/approach The composite joint was made of microporous copper and Cu3Sn. Microporous copper was immersed into liquid Sn to achieve Sn-microporous copper composite structure for die attachment. By the thermo-compression bonding, the Cu3Sn-microporous copper composite joint with a thickness of 100 µm was successfully obtained after bonding at 350 °C for 5 min under a low pressure of 0.6 MPa. Findings After thermo-compression bonding, the resulting interconnection could withstand a high temperature of at most 676 °C, with the entire Sn transforming into Cu3Sn with high remelting temperatures. A large shear strength could be achieved with the Cu3Sn-microporous copper in the interconnections. The formed bondlines demonstrated a good electrical and thermal conductivity owing to the large existing amount of copper in the interconnections. Furthermore, the interconnection also exhibited excellent reliability under high temperature aging at 300 °C. Originality/value This die-attach composite joint was suitable for power devices operating under high temperatures or other harsh environments.

Hibiscus sabdariffa extract protects HT-22 cells from glutamate-induced neurodegeneration by upregulating glutamate transporters and exerts lifespan extension in C. elegans via DAF-16 mediated pathway

BACKGROUND: Glutamate toxicity is involved in several neurodegenerative conditions, including Alzheimer’s disease. OBJECTIVE: The study aims to investigate the neuroprotective efficacy of ethanol extract of Hibiscus sabdariffa calyces (HS) against glutamate-induced toxicity in HT-22 cells and induce anti-aging property in Caenorhabditis elegans. METHODS: HT-22 cells were pre-treated with HS followed by glutamate and evaluated for the neuroprotective effect using cell viability assay, confocal microscopic analysis, qPCR, Western blot, and docking analysis. Induction of anti-aging property in C. elegans with HS extract was analyzed through physiological assays and qPCR analysis. RESULTS: GC-MS analysis of the HS extract showed the presence of 19 compounds with antioxidant properties including oleamide,2-(diethoxymethyl)furan and 5-methylfurfural. In vitro studies reveal that glutamate exerted toxicity in HT-22 cells by inducing oxidative stress, depleting glutathione, downregulating glutamate transporters, antioxidant genes, inducing autophagy (Beclin-1, Atg-5, Atg-7, LC3-II) by the activation of MAPK (p38, JNK) pathway, and causing apoptosis. However, pre-treatment with HS extract (5, 10μg/ml) reversed the effect and offered neuroprotection. In silico studies showed that the compounds of HS extract can bind effectively and inhibit the activity of NMDAR, calpain-1 and GSK-3β. In C. elegans, HS extended lifespan, reduced the accumulation of lipofuscin, modulated healthspan-related genes and downregulated the expression of daf-2. CONCLUSION: Our results indicate that HS with its bioactive components exhibits neuroprotective activity by upregulating glutamate transporters, inhibiting autophagy and exerts anti-aging property through DAF-16 dependent mechanism.