Unsteady Axisymmetric Rotational Flow of Dusty Elastico Viscous Liquid

This paper reports the flow of elastico-viscous liquid embedded with particles in an oscillating cylinder. Explicit expressions are obtained for the velocities of liquid and dust particles by the technique of Laplace transforms. Numerical computations of the velocity fields are carried out for different values of mass concentration and relaxation time of the dust particles and varying elastic elements in the liquid

HOMOCASTASTERONE: A NOVEL PLANT KETOSTEROID INDUCING HAEMATOLOGICAL CHANGES IN NORMAL AND DIABETIC MALE RAT

Objective: To study the effect of brassinosteroid keto isoform homocastasterone, in diabetic male wistar rat as an antihyperglycemic factor and to evaluate its effects on the hemodynamic parameters in rat blood.Methods: Diabetes was induced in a group (n=6) of rats with a single peritoneal injection of streptozotocin at 60 mg/kg. bw. With a treatment schedule of 15 consecutive days, control (n=6) and diabetic rats received 666µg/kg bw, of homocastasterone. Circulating blood glucose, cell count, cell indices, and MDA level was assessed.Results: Significant reduction (p<0.05) in blood glucose level and increase inRBCs, WBCs, granulocytes, lymphocytes, monocytes and platelets count(p<0.05) along with improved functional indices for HCT, PCV, MCV, MCH, MCHC, MPV, PDW, PCT in homocastasterone treated diabetic group was noted. A significant reduction in RBC-MDA level (p<0.001) in the treated group was noted.Conclusion: It is suggested that brassinosteroid keto isoform homocastasterone exhibits antiglycemic effect in diabetic rat, and improves RBC, WBC, Platelet counts, haemoglobin level, and cell indices, while reducing peroxidative cell damage in RBCs.Â

A mechanism of lysosomal calcium entry

Lysosomal calcium (Ca2+) release is critical to cell signaling and is mediated by well-known lysosomal Ca2+ channels. Yet, how lysosomes refill their Ca2+ remains hitherto undescribed. Here, from an RNA interference screen in Caenorhabditis elegans, we identify an evolutionarily conserved gene, lci-1, that facilitates lysosomal Ca2+ entry in C. elegans and mammalian cells. We found that its human homolog TMEM165, previously designated as a Ca2+/H+ exchanger, imports Ca2+ pH dependently into lysosomes. Using two-ion mapping and electrophysiology, we show that TMEM165, hereafter referred to as human LCI, acts as a proton-activated, lysosomal Ca2+ importer. Defects in lysosomal Ca2+ channels cause several neurodegenerative diseases, and knowledge of lysosomal Ca2+ importers may provide previously unidentified avenues to explore the physiology of Ca2+ channels

Formulation and chemical characterization of Clerodendrum infortunatum leaf extract in relation to anti-fungal activity

The study explored to develop an eco-friendly herbal fungicide from chloroform extract of Clerodendrum infortunatum leaves. The extract upon activity guided purification using flash chromatography yielded eight fractions F3 through F10. Total phenol and flavonoid contents in the fractions ranged from 0.12-48.25 mg GAE/g and 0.03–25.29 mg QE/g. LC-MS/MS analysis confirmed the identification of seven phenolic acids across different fractions, the total of which varied between 0 and 2.17 mg/g. Emulsifiable Concentrate (20%) formulation was made with the extract and fractions and tested against Phomopsis vexans causing fruit rot disease in brinjal. Of the various fractions, F8 displayed highest antifungal activity (ED50 = 46.8 μg/ml). Antifungal activity of leaf extract/fractions was correlated with total phenol, total flavonoid and total phenolic acids (r = -0.60 to -0.69). Among the phenolic acids, benzoic acid showed maximum antifungal activity followed by t-cinnamic acid. The relationship between phenolic composition and activity is also reported