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Jyoti P. Jadhav Swapnil S. Phugare Rhishikesh S. Dhanve Shekhar B. Jadhav 《Biodegradation》2010,21(3):453-463
A newly isolated novel bacterium from sediments contaminated with dyestuff was identified as Pseudomonas aeruginosa strain BCH by 16S rRNA gene sequence analysis. The bacterium was extraordinarily active and operative over a wide rage of
temperature (10–60°C) and salinity (5–6%), for decolorization of Direct Orange 39 (Orange TGLL) at optimum pH 7. This strain
was capable of decolorizing Direct Orange 39; 50 mg l−1 within 45 ± 5 min, with 93.06% decolorization, while maximally it could decolorize 1.5 g l−1 of dye within 48 h with 60% decolorization. Analytical studies as, UV–Vis spectroscopy, FTIR, HPLC were employed to confirm
the biodegradation of dye and formation of new metabolites. Induction in the activities of lignin peroxidases, DCIP reductase
as well as tyrosinase was observed, indicating the significant role of these enzymes in biodegradation of Direct Orange 39.
Toxicity studies with Phaseolus mungo and Triticum aestivum revealed the non-toxic nature of degraded metabolites. 相似文献
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R Bargaje S Gupta A Sarkeshik R Park T Xu M Sarkar M Halimani SS Roy J Yates B Pillai 《PloS one》2012,7(8):e43243
MicroRNAs (miRNAs) are short regulatory RNA molecules that interfere with the expression of target mRNA by binding to complementary sequences. Currently, the most common method for identification of targets of miRNAs is computational prediction based on free energy change calculations, target site accessibility and conservation. Such algorithms predict hundreds of targets for each miRNA, necessitating tedious experimentation to identify the few functional targets. Here we explore the utility of miRNA-proteomics as an approach to identifying functional miRNA targets. We used Stable Isotope Labeling by amino acids in cell culture (SILAC) based proteomics to detect differences in protein expression induced by the over-expression of miR-34a and miR-29a. Over-expression of miR-29a, a miRNA expressed in the brain and in cells of the blood lineage, resulted in the differential expression of a set of proteins. Gene Ontology based classification showed that a significant sub-set of these targets, including Voltage Dependent Anion Channel 1 and 2 (VDAC1 and VDAC2) and ATP synthetase, were mitochondrial proteins involved in apoptosis. Using reporter assays, we established that miR-29a targets the 3' Untranslated Regions (3' UTR) of VDAC1 and VDAC2. However, due to the limited number of proteins identified using this approach and the inability to differentiate between primary and secondary effects we conclude that miRNA-proteomics is of limited utility as a high-throughput alternative for sensitive and unbiased miRNA target identification. However, this approach was valuable for rapid assessment of the impact of the miRNAs on the cellular proteome and its biological role in apoptosis. 相似文献
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Coordinate action of exiguobacterial oxidoreductive enzymes in biodegradation of reactive yellow 84A dye 总被引:1,自引:0,他引:1
A novel bacterial species identified as Exiguobacterium sp. RD3 degraded the diazo dye reactive yellow 84A (50 mg l−1) within 48 h at static condition, at 30°C and pH 7. Lower salinity conditions were found to be favorable for growth and decolorization.
Enzymatic activities of an H2O2 independent oxidase along with laccase and an azoreductase suggest their prominent role during the decolorization of reactive
yellow 84A. Presence of an H2O2 independent oxidase in Exiguobacterium sp. RD3 was confirmed and hydrogen peroxide produced was detected by a coupled iodometric assay. Azoreductase activity was
prominent in presence of cofactors NADH and NADP in mineral salt medium. Considerable depletion of COD of the dye solution
during degradation of dye was indicative of conversion of complex dye into simple oxidizable products. Products of degradation
were analyzed by HPLC, FTIR and GCMS. A possible product of the degradation was identified by GCMS. Degradation of dye resulted
with significant reduction of phytotoxicity, confirming the environmentally safe nature of the degradation metabolites. 相似文献
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