Effect of glucose and phytohaemagglutinin (PHA) rich Phaseolus vulgaris extract on growth and protein synthesis of pharmaceutically important cyanobacteria Nostoc ellipsosporum NCIM 2786

Nostoc ellipsosporum is a highly potent cyanobacterium for production of pharmaceutically important chemicals. In this study, an effort has been made to determine the effect of glucose and phytohaemagglutinin (PHA) rich Phaseolus vulgaris extract on N. ellipsosporum growth and protein production. Maximum growth was observed in Fog’s medium supplemented with glucose. SEM analysis showed that the regular and well developed heterocysts were observed in Fog’s media supplemented with glucose. Significant medium components were evaluated by Plackett–Burman (PB) design and PHA extract was found to be the most significant in growth medium. Results of this study showed that both glucose and PHA rich P. vulgaris extract have positive effects and enhance the growth and protein synthesis.     

Effect of a new non-cleavable substrate analog on wild-type and serine mutants in the signature sequence of adenylosuccinate lyase of Bacillus subtilis and Homo sapiens

Adenylosuccinate lyase (ASL) catalyzes two beta-elimination reactions in purine biosynthesis, leading to the question of whether the two substrates occupy the same or different active sites. Kinetic studies of Bacillus subtilis and human ASL with a new substrate analog, adenosine phosphonobutyric acid, 2'(3'), 5'-diphosphate (APBADP), show that it acts as a competitive inhibitor with respect to either substrate (K(I) approximately 0.1 microM), indicating that the two substrates occupy the same active site. Binding studies show that both the B. subtilis and human ASLs bind up to 4 mol of APBADP per mole of enzyme tetramer and that both enzymes exhibit cooperativity: negative for B. subtilis ASL and positive for human ASL. Mutant B. subtilis ASLs, with replacements for residues previously identified as critical for catalysis, bind the substrate analog similarly to wild-type ASL. Two serines in a flexible loop of ASL have been proposed to play roles in catalysis because they are close to the substrate in the crystal structure of Escherichia coli ASL. We have now mutated the corresponding serines to alanines in B. subtilis and human ASL to evaluate their involvement in enzyme function. Kinetic data reveal that human Ser(289) and B. subtilis Ser(262) and Ser(263) are essential for catalysis, while the ability of these Ser mutants to bind APBADP suggests that they do not contribute to substrate affinity. Although these serines are not visible in the crystal structure of human adenylosuccinate lyase complexed with substrate or products (PDB #2VD6), they may be interacting with the active sites.     

An estradiol-conjugate for radiolabelling with 177Lu: an attempt to prepare a radiotherapeutic agent

177Lu is presently being considered as one of the most promising radionuclide for targeted therapy owing to its suitable decay characteristics. 177Lu in high radionuclidic purity (99.99%) and moderate specific activity (100-110 TBq/g) was produced using enriched (60.6% 176Lu) Lu2O3 target. The macrocycle 1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid (DOTA) is known to form stable complexes with lanthanides. Herein, we describe a novel attempt to introduce 177Lu in the estradiol moiety through a steroidal-BFCA (Bifunctional Chelating Agent) conjugate. The preparation of a steroid conjugate via coupling of 6alpha-amino-17beta-estradiol with a C-functionalized DOTA derivative viz. p-NCS-benzyl-DOTA as a BFCA and thereafter the radiolabelling of the conjugate with 177Lu is reported. Biological activity of the resultant estradiol-DOTA conjugate after radiolabelling was studied by carrying out preliminary in vitro cell uptake studies with MCF-7, human breast carcinoma cell line expressing estrogen receptors as well as binding studies with anti-estradiol antibodies.     

Structural insight into the glycosylphosphatidylinositol transamidase subunits PIG-K and PIG-S from yeast

The addition of glycosylphosphatidylinositol (GPI) anchors to eukaryotic proteins in the lumen of the endoplasmic reticulum is catalyzed by the transamidase complex, composed of at least five subunits (PIG-K, PIG-S, PIG-T, PIG-U and GPAA1). Here PIG-K(24-337) and PIG-S(38-467) from yeast, including the residues 24-337 and 38-467 of the entire 411 and 534 residue protein, respectively, was produced in Escherichia coli and purified to homogeneity. Analysis of secondary structure by circular dichroism spectroscopy showed that yPIG-K(24-377) comprises 52% α-helix and 12% β-sheet, whereas yPIG-S(38-467) involves 58% α-helix and 18% β-sheet. The radius of gyration (R(g)) and the maximum size (D(max)) of both proteins have been analyzed by small angle X-ray scattering (SAXS) and determined to be 2.64±0.3 and 10.3±0.1 nm (yPIG-K(24-377)) as well as 3.06±0.02 nm (R(g)) and 16.9±0.4 nm (D(max)) in the case of yPIG-S(38-467), respectively. Using an ab initio approach, the first low-resolution solution structures of both proteins were restored. yPIG-K(24-377) is an elongated particle consisting of an egg-like portion and a small globular segment linked together by an 1.9 nm long stalk. yPIG-S(38-467) forms an elongated molecule in solution with a larger domain of 10.1 nm in length, a diameter of 9.1 nm and a smaller domain of 6.7 nm in length and 3.4 nm in width. The two domains of yPIG-S(38-467) are tilted relative to each other. Finally, the arrangements of PIG-K and PIG-S inside the ensemble of the transamidase complex are discussed.     

Stimulation of menthol production in <Emphasis Type="Italic">Mentha piperita</Emphasis> cell culture

Plant cell culture provides an alternative means for producing secondary metabolites. In this study, experiments were carried out to study the impact of several parameters, independently and in combination, on the stimulation of menthol production in the cell suspension culture of Mentha piperita. Callus was obtained from leaf segments of in vitro grown plantlets on Murashige and Skoog (MS) medium supplemented with 0.2 mg l⁻¹of 2,4-dichlorophenoxy acetic acid to initiate cell suspension culture. This culture was maintained in half-strength MS medium supplemented with 0.2 mg l⁻¹of 2,4-dichlorophenoxy acetic acid at 15 d interval and used for further studies. Precursor feeding alone, i.e., menthone, at 35 μM concentration showed slightly improved productivity. γ-Cyclodextrin alone at 60 μM concentration and in combination with menthone feeding at 35 μM increased menthol yield up to 92 and 110 mg l⁻¹ in comparison to 77 mg l⁻¹ of control culture. Synergistic potentiation effect of menthone feeding at 35 μM and γ-cyclodextrin at 60 μM treatment followed by in situ adsorption with RP-8 also showed potential stimulation of menthol production in M. piperita cell culture. Fungal elicitor treatment showed enhanced production level up to 140.8 mg l⁻¹ in comparison to that of control. Further studies were carried out with the establishment of Agrobacterium tumefaciens (Ach5) gall-mediated calli, and consequently, cell suspension culture and results showed the significant enhancement of menthol yield up to 278 mg l⁻¹. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Oxidation of Akt2 kinase promotes cell migration and regulates G1-S transition in the cell cycle

Phosphorylation has long been recognized as the key mediator of protein signaling. New modes of signaling regulation are emerging with the development of specific chemical probes and application of high-throughput mass spectrometry technologies. Using biotin-tagged chemical probes for protein oxidation, mass spectrometry and functional assays, our group has recently reported isoform-specific oxidation of Akt2 in response to PDGF signaling. The studies included here investigate the functional consequence of oxidation on Akt2-mediated cell migration and cell cycle. Akt2-KO MEFs transduced with WT and Cys124Ser Akt2 were used as the model system for these studies. The implications of these findings on disease pathology are discussed.Key words: oxidation, ROS, cell migration, cell cycle, wound healing, Akt2, starvation     

Production of L-DOPA from cell suspension culture of Mucuna pruriens f. pruriens

Summary Production of L-DOPA was studied in cell suspension culture of Mucuna pruriens f. pruriens. Suspension culture was established in MSI medium composed of half concentration of Murashige and Skoog's salts and 2% sucrose. A two-stage cell suspension culture was developed for enhanced accumulation of L-DOPA. In the first stage, the culture system was composed of MSI medium without CaCl, which was suitable for cell growth and in the second stage MSI medium containing 42.5 mg.l^–1 KH₂PO₄ and 4% sucrose favoured L-DOPA production. A discernible higher production of L-DOPA was obtained in this two-stage cell suspension culture in comparison to single stage culture.