Optical and dielectric properties of divalent copper based double perovskite compound, Gd2CuTiO6.

In this work, we have investigated high temperature dielectric properties and room temperature optical properties on rare earth ion based orthorhombic Gd2CuTiO6(GCTO). Optical properties like reflectance and band gap were determined from ultra-violet visible (UV-Vis) diffuse reflectance spectroscopy technique and photoluminescence (PL) spectrum. The compound exhibited substantial optical absorption and emission in the visible region. Our findings reveal the presence of an intermediate band, as evidenced by the difference between the band gap values obtained from the Tauc plot using the diffuse reflectance spectrum (3.07 eV) and the PL spectrum (2.4 eV). Furthermore, thermogravimetric analysis demonstrated high thermal stability with <0.4% change in mass over a wide temperature range of 30 °C-1200 °C in air environment. Moreover, lead-halide free compound, GCTO is highly thermally stable oxide double perovskite with wide band gap and absorption in the UV-Vis range are highly suitable for optical applications In addition, dielectric properties of the compound have been examined using impedance spectroscopy as a function of frequency ranging from 500 Hz to 1 MHz and temperature between 300 K and 550 K. Compounds with relaxor behaviour at high temperatures and high thermal stability are desired for several applications. Because of the cation disorders present in this compound, GCTO displays dielectric relaxor behaviour indicative of a distribution of relaxation times. Furthermore, the frequency-dependent modulus illustrated a thermally activated conduction mechanism. Cole-Cole plots of electrical modulus suggest prominent grain contribution above 350 K.

Inhibitory activities of Typhonium trilobatum (L.) Schott on virulence potential of multi-drug resistant toxigenic Vibrio cholerae.

Cholera is a serious epidemic disease caused by the toxigenic strains of Vibrio cholerae belonged to O1 or O139 serogroups. The emergence of antibacterial resistance in V. cholerae is an increasing concern. Natural product drug invention and Ethnopharmacology may demonstrate a considerable expectation under this circumstance. Traditionally, leaves of Typhonium trilobatum (L.) Schott (locally known as Ghatkanchu or Bengal Arum) are employed for treatment of gastrointestinal disorder in different region of India. The objective of the present study was to evaluate the antibacterial, and antibiofilm activities of methanol extract of T. trilobatum leaves (METTL) against the strains of multi-drug resistant (MDR) Vibrio cholerae (serotypes O1, O139, non-O1, and non-O139) which are responsible for watery diarrhea such as cholera. MIC, MBC and time-kill kinetic studies were used for evaluation of In vitro antibacterial activity of METTL. Microdilution method and Confocal laser scanning microscopy were used to evaluate biofilm-inhibitory activities. The gene expression was analyzed by performing Quantitative real-time PCR (qRT-PCR). METTL showed antibacterial activity with MIC and MBC at 1-32 mg/mL and 8-32 mg/mL, respectively against the clinical strains of Vibrio cholerae belonged to different serogroups. METTL showed significant (P < 0.05) inhibitory activity on the formation of biofilm by V. cholerae SG24, with 81.3, 75.8, and 69.6% of inhibition at MIC, ½ MIC and » MIC, respectively. METTL showed also significant (P < 0.05) inhibitory activity on the formation of extracellular polymeric substances (EPS) formation by V. cholerae SG24, with 89.41, and 99.26% of inhibition of EPS protein and EPS carbohydrate at MIC, respectively. METTL significantly (p < 0.01) inhibited the Cholera toxin (CT) production by the V. cholerae strain SG24 evaluated by the CT - ELISA assay. The cholera toxin production was reduced by 76.26%, 48.76% and 29.93 at MIC (8 mg/mL), ½ MIC (4 mg/mL) and » MIC (2 mg/mL), respectively. METTL was shown to repress ctxAB gene transcription 1.76 fold (p < 0.05) at sub-bactericidal concentration (» MIC). We also found that the expression of cholera toxin activator genes, toxT and tcpP was reduced by 11.56- fold (p < 0.001) and 23.52- fold (p < 0.001), respectively, at sub-bactericidal concentration (» MIC). Transcription of the following genes was repressed: vpsR (1.8-fold; p < 0.05), Bap1 (1.53-fold; p ≤ 0.05), and rmbA (2.89-fold) by METTL at sub-bactericidal concentration. The expression of vpsT was also repressed by 1.5-fold (p < 0.01) at sub-bactericidal concentration. The active Typhonium trilobatum (L.) leaves extract may be suggested as an substitute for the treatment of MDR V. cholerae infection and could be used as prospective source for the development of novel antimicrobial compound/s and biofilm-inhibitory drug/s useful for the treatment of cholera and diarrheal patients. The results obtained here also validate scientifically the traditional uses of Typhonium trilobatum (L.) in India employed for the treatment of gastrointestinal disorder. Further studies should be directed at purifying and characterizing these antibacterial principles against Vibrio cholerae.

Influence of sodium chloride on the regulation of Krebs cycle intermediates and enzymes of respiratory chain in mungbean (Vigna radiata L. Wilczek) seedlings.

The effect of common salt (NaCl) on ion contents, Krebs cycle intermediates and its regulatory enzymes was investigated in growing mungbean (Vigna radiata L. Wilczek, B 105) seedlings. Sodium and chloride ion contents increased in both root and shoot whereas potassium ion content decreased in shoot of test seedlings with increasing concentrations of NaCl. Organic acids like pyruvate and citrate levels increased whereas malate level decreased under stress in both roots and shoots. Salt stress also variedly affected the activities of different enzymes of respiratory chain. The activity of pyruvate dehydrogenase (E.C. 1.2.4.1) decreased in 50 mM NaCl but increased in 100 mM and 150 mM concentrations, in both root and shoot samples. Succinate dehydrogenase (E.C. 1.3.5.1) activity was reduced in root whereas stimulated in shoot under increasing concentrations of salt. The activity of isocitrate dehydrogenase (E.C. 1.1.1.41) and malate dehydrogenase (E.C. 1.1.1.37) decreased in both root and shoot samples under salt stress. On the contrary, pretreatment of mungbean seeds with sublethal dose of NaCl was able to overcome the adverse effects of stress imposed by NaCl to variable extents with significant alterations of all the tested parameters, resulting in better growth and efficient respiration in mungbean seedlings. Thus, plants can acclimate to lethal level of salinity by pretreatment of seeds with sublethal level of NaCl, which serves to improve their health and production under saline condition, but the sublethal concentration of NaCl should be carefully chosen.

NaCl pretreatment alleviates salt stress by enhancement of antioxidant defense system and osmolyte accumulation in mungbean (Vigna radiata L. Wilczek).

Enhancement of salt (NaCl) tolerance by pretreatment with sublethal dose (50 mM) of NaCl was investigated in V. radiata seedlings. NaCl stress caused drastic effects on roots compared to shoots. Accompanying reductions in length, number of root hairs and branches, roots became stout, brittle and brown in color. Salt stress caused gradual reduction in chlorophyll, carotenoid pigment contents and chlorophyll fluorescence intensity also. Superoxide dismutase and catechol peroxidase activities increased under stress in both roots and leaves. But catalase activity showed an increase in roots and decrease in leaves. In these seedlings, the oxidative stress has been observed under salinity stress and the level of proline, H2O2 and malondialdehyde content were increased. But pretreatment with sublethal dose of NaCl was able to overcome the adverse effects of stress imposed by NaCl to variable extents by increasing growth and photosynthetic pigments of the seedlings, modifying the activities of antioxidant enzymes, reducing malondialdehyde and H2O2 content and increasing accumulation of osmolytes like proline. Thus, mungbean plants can acclimate to lethal level of salinity by pretreatment with sublethal level of NaCl, improving their health and production under saline condition.