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941.
942.
Bacterial‐induced expression of RAB18 protein in Orzya sativa salinity stress and insights into molecular interaction with GTP ligand
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Yachana Jha Gaurav Sablok Naidu Subbarao Raja Sudhakar M. H. U. Turabe Fazil R. B. Subramanian Andrea Squartini Sunil Kumar 《Journal of molecular recognition : JMR》2014,27(9):521-527
In the present research, we have studied the inoculation effects of two root‐associated plant growth‐promoting rhizobacteria (PGPR) in rice and provide the pieces of evidence that the inoculation of the PGPR could potentially result in inducing the expression of the salt stress‐related RAB18 plant gene under varying degrees of salinity stress. The sequenced putative gene of RAB18 of Oryza sativa in this study is 740 bp long, has a content of 44.4%, and a molecular weight of 492 102.00 Da. BLAST homology patterns revealed sequence similarity with the previously sequenced RAB in model plant species. We demonstrate the mode of action of this stress‐related protein by performing comparative modeling of Q10RT8 (Os03g0146000 protein, homolog of the sequenced RAB18; O. sativa subsp. japonica) using energy minimization, molecular dynamic simulations, and molecular docking of a guanosine triphosphate (GTP) ligand with the protein. The docking results indicated that Ser21, Ala22, Lys25, Asp68, Ala70, Glu73, and Arg74 are important determinant residues for functional interaction with the GTP ligand. The present research contributes to the understanding of the PGPR inoculation in salinity stress. Additionally, it provides the layout of the understanding of the molecular interactions between RAB and GTP ligand. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
943.
Amit Kumar Jha Anaya Raj Pokhrel Amit Kumar Chaudhary Seong-Whan Park Wan Je Cho Jae Kyung Sohng 《Molecules and cells》2014,37(10):727-733
Spinosyns A and D are potent ingredient for insect control with exceptional safety to non-target organisms. It consists of a 21-carbon tetracyclic lactone with forosamine and tri-O-methylated rhamnose which are derived from S-adenosylmethionine. Although previous studies have revealed the involvement of metK1 (S-adenosylmethionine synthetase), rmbA (glucose-1-phosphate thymidylyltransferase), and rmbB (TDP-D-glucose-4, 6-dehydratase) in the biosynthesis of spinosad, expression of these genes into rational screened Saccharopolyspora spinosa (S. spinosa MUV) has not been elucidated till date. In the present study, S. spinosa MUV was developed to utilize for metabolic engineering. The yield of spinosyns A and D in S. spinosa MUV was 244 mg L−1 and 129 mg L−1, which was 4.88-fold and 4.77-fold higher than that in the wild-type (50 mg L−1 and 27 mg L−1), respectively. To achieve the better production; positive regulator metK1-sp, rmbA and rmbB genes from Streptomyces peucetius, were expressed and co-expressed in S. spinosa MUV under the control of strong ermE* promoter, using an integration vector pSET152 and expression vector pIBR25, respectively. Herewith, the genetically engineered strain of S. spinosa MUV, produce spinosyns A and D up to 372/217 mg L−1 that is 7.44/8.03-fold greater than that of wild type. This result demonstrates the use of metabolic engineering on rationally developed high producing natural variants for the production. 相似文献
944.
Puja Kumari Radhakrishnan Reddy Bhavanath Jha 《Marine biotechnology (New York, N.Y.)》2014,16(1):74-87
The present study investigated the contents of hydroxy-oxylipins hydroxyoctadecadienoic acids (HODEs), hydroxyoctadecatrienoic acids (HOTrEs), and hydroxyeicosatetraenoic acids (HETEs) in 40 macroalgae belonging to the Chlorophyceae, Rhodophyceae and, Phaeophyceae. The hydroxy-oxylipin content was low and ranged from 0.14?±?0.012 ng/g (Codium dwarkense) to 8,161.9?±?253 ng/g (Chaetomorpha linum) among the Chlorophyceae, 345.4?±?56.8 ng/g (Scytosiphon lomentaria) to 2,574.5?±?155.5 ng/g (Stoechospermum marginatum) among the Phaeophyceae, and 19.4?±?2.2 ng/g (Laurencia cruciata) to 1,753.1?±?268.2 ng/g in Gracilaria corticata v. folifera) among the Rhodophyceae on fresh weight basis (p?≤?0.01). The concentrations of C18-oxylipins were greater than C20-oxylipins in all the investigated macroalgae, except forUlva linza, Codium sursum, Dictyopteris deliculata, S. marginatum, Sargassum tenerrimum, Gracilaria spp. (except G. textorii), Rhodymenia sonderi, and Odonthalia veravalensis.The macroalgal species rich in HODEs, HOTrEs, and HETEs were segregated using principal component analysis. The red macroalgae showed the highest contents of HETEs, followed by brown and green macroalgae in consistent with their PUFA profiles. The relative contents of isomeric forms of oxylipins displayed the species-specific positional selectivity of lipoxygenase (LOX) enzyme in macroalgae. All the species exhibited 13-LOX specificity for linoleic acid analogous of higher plants, while 21 out of 40 species showed 9-LOX selectivity for the oxygenation of α-linolenic acid. No trend was observed for the oxygenation of arachidonic acid in macroalgae, except for in the Halymeniales, Ceramiales (except L. cruciata), and Corallinales. This study infers that LOX products, octadecanoids and eicosanoids, described in macroalgal taxa were similar to those of higher plants and mammals, respectively, and thus can be utilized as an alternative source of chemically synthesized oxylipin analogues in therapeutics, cosmetics, and nutritional oil supplements. 相似文献
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946.
947.
We propose a highly sensitive side-polished birefringent photonic crystal fiber (PCF) sensor based on surface plasmon resonance (SPR). The polished surface of the proposed structure is coated with indium tin oxide (ITO) to excite plasmon and the analytes can be placed on the flat surface easily instead of filling the voids. The birefringent nature of the structure helps in coupling more fields to the ITO-dielectric interface. With the optimum thickness of 110 nm of ITO, the structure shows a maximum wavelength sensitivity of 17000 nm/RIU with a resolution of 5.8?×?10?6 RIU. Further this also showed an amplitude sensitivity of 74 RIU?1 along with a resolution of 1.35?×?10?5 RIU. Moreover, the effect of bending on this low loss structure is also analyzed. 相似文献
948.
Arunagiri Anoop Srivastav Ranganathan Bhagwan Das Dhaked Narendra Nath Jha Supriya Pratihar Saikat Ghosh Shruti Sahay Santosh Kumar Subhadeep Das Mamata Kombrabail Kumud Agarwal Reeba S. Jacob Praful Singru Prasenjit Bhaumik Ranjith Padinhateeri Ashutosh Kumar Samir K. Maji 《The Journal of biological chemistry》2014,289(24):16884-16903
The storage of protein/peptide hormones within subcellular compartments and subsequent release are crucial for their native function, and hence these processes are intricately regulated in mammalian systems. Several peptide hormones were recently suggested to be stored as amyloids within endocrine secretory granules. This leads to an apparent paradox where storage requires formation of aggregates, and their function requires a supply of non-aggregated peptides on demand. The precise mechanism behind amyloid formation by these hormones and their subsequent release remain an open question. To address this, we examined aggregation and fibril reversibility of a cyclic peptide hormone somatostatin (SST)-14 using various techniques. After proving that SST gets stored as amyloid in vivo, we investigated the role of native structure in modulating its conformational dynamics and self-association by disrupting the disulfide bridge (Cys3–Cys14) in SST. Using two-dimensional NMR, we resolved the initial structure of somatostatin-14 leading to aggregation and further probed its conformational dynamics in silico. The perturbation in native structure (S-S cleavage) led to a significant increase in conformational flexibility and resulted in rapid amyloid formation. The fibrils formed by disulfide-reduced noncyclic SST possess greater resistance to denaturing conditions with decreased monomer releasing potency. MD simulations reveal marked differences in the intermolecular interactions in SST and noncyclic SST providing plausible explanation for differential aggregation and fibril reversibility observed experimentally in these structural variants. Our findings thus emphasize that subtle changes in the native structure of peptide hormone(s) could alter its conformational dynamics and amyloid formation, which might have significant implications on their reversible storage and secretion. 相似文献
949.
The Ca2+ and cAMP/PKA pathways are the primary signaling systems in secretory epithelia that control virtually all secretory gland functions. Interaction and crosstalk in Ca2+ and cAMP signaling occur at multiple levels to control and tune the activity of each other. Physiologically, Ca2+ and cAMP signaling operate at 5–10% of maximal strength, but synergize to generate the maximal response. Although synergistic action of the Ca2+ and cAMP signaling is the common mode of signaling and has been known for many years, we know very little of the molecular mechanism and mediators of the synergism. In this review, we discuss crosstalk between the Ca2+ and cAMP signaling and the function of IRBIT (IP3 receptors binding protein release with IP3) as a third messenger that mediates the synergistic action of the Ca2+ and cAMP signaling. 相似文献
950.