Photophysical properties of Newkome-type dendrimers in aqueous medium.

Newkome-type first, second and third generation dendrimers, having t-butyl (GB), ethyl (GE) and carboxylic (GA) end groups, were synthesized. A pyrene group, which can act as fluorescent sensor, was attached to the core of the dendrimers and their photophysical properties in aqueous solution were studied. These dendrimers were found to aggregate in aqueous solution, which manifested as an excimer peak in the pyrene emission spectra for the first and second generation dendrimers with ethyl and t-butyl end groups. The excimer peak however was not seen in case of the third generation dendrimer. Dendrimers with carboxylic end groups, did not show the excimer peak in water, which implies the hydrophobic nature of the aggregation. It is observed that the intensity of the excimer peak decreases with the increase in the size of the dendrimer. Lifetime studies carried out on the first and second generation dendrimers showed the formation of excimer species as a risetime in the decay curve. The aggregation of the third generation dendrimer was proposed from the quenching studies using silver ions and CCl(4) as quenchers.     

Effect of chronic exposure to aspartame on oxidative stress in brain discrete regions of albino rats

This study was aimed at investigating the chronic effect of the artificial sweetener aspartame on oxidative stress in brain regions of Wistar strain albino rats. Many controversial reports are available on the use of aspartame as it releases methanol as one of its metabolite during metabolism. The present study proposed to investigate whether chronic aspartame (75 mg/kg) administration could release methanol and induce oxidative stress in the rat brain. To mimic the human methanol metabolism, methotrexate (MTX)-treated rats were included to study the aspartame effects. Wistar strain male albino rats were administered with aspartame orally and studied along with controls and MTX-treated controls. The blood methanol level was estimated, the animal was sacrificed and the free radical changes were observed in brain discrete regions by assessing the scavenging enzymes, reduced glutathione, lipid peroxidation (LPO) and protein thiol levels. It was observed that there was a significant increase in LPO levels, superoxide dismutase (SOD) activity, GPx levels and CAT activity with a significant decrease in GSH and protein thiol. Moreover, the increases in some of these enzymes were region specific. Chronic exposure of aspartame resulted in detectable methanol in blood. Methanol per se and its metabolites may be responsible for the generation of oxidative stress in brain regions.     

Two-Site Recognition of Phosphatidylinositol 3-Phosphate by PROPPINs in Autophagy

Macroautophagy is essential to cell survival during starvation and proceeds by the growth of a double-membraned phagophore, which engulfs cytosol and other substrates. The synthesis and recognition of the lipid phosphatidylinositol 3-phosphate, PI(3)P, is essential for autophagy. The key autophagic PI(3)P sensors, which are conserved from yeast to humans, belong to the PROPPIN family. Here we report the crystal structure of the yeast PROPPIN Hsv2. The structure consists of a seven-bladed β-propeller and, unexpectedly, contains two pseudo-equivalent PI(3)P binding sites on blades 5 and 6. These two sites both contribute to membrane binding in?vitro and are collectively required for full autophagic function in yeast. These sites function in concert with membrane binding by a hydrophobic loop in blade 6, explaining the specificity of the PROPPINs for membrane-bound PI(3)P. These observations thus provide a structural and mechanistic framework for one of the conserved central molecular recognition events in autophagy.     

Investigation on the Anticancer and Antibacterial Mechanism of Thiazoline/Imidazoline Derived Palladium(II) Complexes

Biological activities of a series of palladium(II) complexes (M1–M9) bearing N^∩N, N^∩S, and N^∩O chelating ligands are reported. The palladium complexes were tested for their cytotoxic properties against human cervical cancer (HeLa) cells and antibacterial activity against Gm^+ve and Gm^–ve bacteria. Among the palladium complexes studied (M1-M9), the complex M5, M8, and M9 were found to be more effective in inhibiting the proliferation of HeLa cells. Hence, these complexes were further investigated for their potential role in cellular damage and apoptosis. DCFDA staining, Rhodamine 123 staining and DNA cleavage assay revealed that complex M5, M8 and M9 induced apoptotic cell death in HeLa cells through ROS generation, DNA damage and mitochondrial depolarization. Computational and titration studies also indicated strong electrostatic interaction with DNA groove. Most of the complexes exhibited good antibacterial activity against both Gm^+ve and Gm^−ve bacteria. The antibacterial activity of the compounds could not be correlated with their anticancer activity indicating a differential mechanism at their effective concentrations. The detailed study on the antibacterial mechanism of the most potent complex M7 revealed that it exerted its antibacterial activity by inhibiting the function of FtsZ and perturbing the localization of the Z-ring at the mid cell.     

Construction and characterization of a NotI-BsuE linking library from the human X chromosome.

We describe the construction and characterization of methylation-resistant sequence-tagged NotI linking clones specific for the X chromosome, referred to as NotI-BsuE linking clones. The approach consists of methylating the X-chromosome-specific cloned DNA with BsuE methylase (M. BsuE), an enzyme that methylates the first C residue in the CGCG sequence, followed by selection of the methylation-resistant NotI sites by insertion of a kanamycin-resistance gene in the clones cleavable by NotI. The frequent occurrence of NotI sites in CpG islands is expected to cause methylation of a large number of NotI sites with BsuE methylase, thereby rendering them resistant to NotI cleavage. Thus, the combination of M. BsuE and NotI yields less frequent cutting than the NotI alone. We have isolated, partially sequenced, and characterized 113 NotI-BsuE linking clones, and mapped 50 clones to various regions along the chromosome.     

Biodegradation of gaseous toluene with mixed microbial consortium in a biofilter: steady state and transient operation

Bioprocess and Biosystems Engineering - Petroleum oil refineries are massive emitters of risky volatile organic compounds (VOCs). Among the VOCs, toluene is taken into account as a significant...     

Ectomycorrhiza,Friend or Foe?

Ecosystems - Many ecology textbooks present the interaction between mycorrhizal fungi and their host plants as the archetype of symbiosis or mutualism. However, mycorrhiza drains carbon directly...     

Synthesis, cytotoxicity, and antiviral activities of new neolignans related to honokiol and magnolol

A series of new bisphenol derivatives bearing allylic moieties were synthesized as potential analogs of honokiol and/or magnolol. Certain compounds exhibited specific anti-proliferation activity against SVR cells and moderate anti-HIV-1 activity in primary human lymphocytes. Compound 5h was the most potent compound and its anti-tumor activity was evaluated in vivo.     

Therapeutic Potential of the Medicinal Plant <i>Tinospora cordifolia</i>–Minireview

For thousands of years, plant based herbal medicines have been utilized by millions of people all over the world. Plant materials or products are used in different folk/traditional medical systems, such as the Chinese, African and Indian medical systems, like Siddha, Ayurveda, Unani, and Homeopathy. Tinospora cordifolia (TC) is a medicinal plant belonging to the family Menispermaceae. It is a big deciduous, climbing shrub growing prevalently in the tropical part of Indian subcontinent regions such as India, Pakistan, Nepal, Bhutan, Bangladesh and Srilanka, and in Myanmar, and China. Guduchi, Giloy, Shindilkodi, and Amritha are all the common names for this plant. Extracts from different parts of this herbal plant have been used to treat many diseases. In Ayurvedic medicine, extract from this plant is used for preparing “rasayanas”, which is known to cure diabetes, skin diseases, allergic conditions, jaundice, cardiovascular diseases, rheumatoid arthritis, poisoning, and microbial infections. T. cordifolia has a many bioactive phytochemicals that have been isolated from its aerial parts and roots. Many bioactive principles have been reported from this plant which belong to various classes like alkaloids, aliphatic compounds, diterpenoid lactones, phenolics, flavonoids, glycosides, sesquiterpenoids, lignans, steroids and polysaccharides. T. cordifolia possesses medicinal properties such as antioxidant, antiallergic, antiinflammatory, antimicrobial, antiviral, antidote, antitumor, antileprotic, antispasmodic, and antidiabetic properties. The present review will provide a comprehensive therapeutic potential of T. cordifolia.