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Mohanty Madhumita Jena; Ye Maian; Li Xingli; Rossi Noreen F. 《American journal of physiology. Cell physiology》2001,281(2):C555
Hypotonicswelling increases the intracellular Ca2+ concentration([Ca2+]i) in vascular smooth muscle cells(VSMC). The source of this Ca2+ is not clear. To study thesource of increase in [Ca2+]i in response tohypotonic swelling, we measured [Ca2+]i infura 2-loaded cultured VSMC (A7r5 cells). Hypotonic swelling produced a40.7-nM increase in [Ca2+]i that was notinhibited by EGTA but was inhibited by 1 µM thapsigargin. Priordepletion of inositol 1,4,5-trisphosphate (IP3)-sensitive Ca2+ stores with vasopressin did not inhibit the increasein [Ca2+]i in response to hypotonic swelling.Exposure of 45Ca2+-loaded intracellular storesto hypotonic swelling in permeabilized VSMC produced an increase in45Ca2+ efflux, which was inhibited by 1 µMthapsigargin but not by 50 µg/ml heparin, 50 µM ruthenium red, or25 µM thio-NADP. Thus hypotonic swelling of VSMC causes a release ofCa2+ from the intracellular stores from a novel sitedistinct from the IP3-, ryanodine-, and nicotinic acidadenine dinucleotide phosphate-sensitive stores. 相似文献
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Both indole acetic acid (IAA) accumulation and nitrogen fixation were increased in Azospirillum cultures isolated from rice roots and soils by carbofuran (2, 3-dihydro-2, 2-dimethyl-7-benzofuranyl-N-methyl carbamate), an insecticide widely used in rice cultivation. Addition of carbofuran at 5 and 10 parts/106 significantly stimulated nitrogen fixation in Azospirillum. Indole acetic acid accumulation by Azospirillum cultures was more pronounced at a lower level (250 g/50 ml) of carbofuran. Evidence is provided for carbofuran degradation by Azospirillum cultures. The 7-benzofuranol (2, 3-dihydro-2–2-dimethyl-7 benzofuranol), a major degradation product of carbofuran, however, did not enhance the IAA accumulation. The higher accumulation of IAA in Azospirillum in the presence of carbofuran is probably related to the increased growth due to fixed N present in the insecticide. Results indicate the involvement of parent compound carbofuran and/or compounds other than the 7-benzofuranol in the higher accumulation of IAA by Azospirillum sp. 相似文献
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Summary The susceptibility of 50 drug resistant strains of Escherichia coli of human gut was determined against ciprofloxacin, acridine orange (AO) and sodium dodecyl sulphate (SDS). Curing efficacy of these agents were worked out at subminimal inhibitory concentrations. Ciprofloaxacin was found a better curing agent for E coli R-plasmids, eliminating R-factors from 48% of the strains followed by SDS and AO which eliminated 24% and 20% of the drug resistance determinants, respectively. Elimination of R-plasmids was found dependent on the concentrations of curing agents and nature of R-plasmids. 相似文献
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Prem Pritam Aditya P. Sarnaik Pramod P. Wangikar 《Biotechnology and bioengineering》2023,120(8):2363-2370
With multiple applications in food, pharmaceutical, and chemical industries as antioxidant or nonmetabolizable sweetener; the bioproduction of d -mannitol is gaining global attention, especially with photosynthetic organisms as hosts. Considering the sustainability prospects, the current work encompasses metabolic engineering of a widely used cyanobacterial strain, Synechococcus elongatus PCC 7942, and two newly isolated fast-growing cyanobacterial strains; S. elongatus PCC 11801 and S. elongatus PCC 11802, for mannitol production. We engineered these strains with a two-step pathway by cloning genes for mannitol-1-phosphate dehydrogenase (mtlD) and mannitol-1-phosphatase (mlp), where the mtlD expression was under the control of different promoters from PCC 7942, namely, Prbc225, PcpcB300, PcpcBm1, PrbcLm17, and PrbcLm15. The strains were tested under the “switch conditions,” where the growth conditions were switched after the first 3 days, thereby resulting in differential promoter activity. Among the engineered strains of PCC 11801 and PCC 11802, the strains possessing Prbc225-mtlD module produced relatively high mannitol titers of 401 ± 18 mg/L and 537 ± 18 mg/L, respectively. The highest mannitol titer of 701 ± 15 mg/L (productivity 60 mg/L.d, yield 895 µM/OD730) was exhibited by the engineered strain of PCC 7942 expressing PcpcB300-mtlD module. It is by far the highest obtained mannitol yield from the engineered cyanobacteria. 相似文献
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Durgesh K. Dwivedi Gopabandhu Jena Vinod Kumar 《Journal of biochemical and molecular toxicology》2020,34(6)
The present study was designed to investigate the hepatoprotective potential of dimethyl fumarate (DMF) against thioacetamide (TAA)‐induced liver damage. Wistar rats were treated with DMF (12.5, 25, and 50 mg/kg/day, orally) and TAA (200 mg/kg intraperitoneally, every third day) for 6 consecutive weeks. TAA exposure significantly reduced body weight, increased liver weight and index, and intervention with DMF did not ameliorate these parameters. DMF treatment significantly restored TAA‐induced increase in the levels of aspartate aminotransferase, alanine aminotransferase, γ‐glutamyl transferase, total bilirubin, uric acid, malondialdehyde, reduced glutathione, and histopathological findings such as inflammatory cell infiltration, deposition of collagen, necrosis, and bridging fibrosis. DMF treatment significantly ameliorated TAA‐induced hepatic stellate cell activation, increase in inflammatory cascade markers (NACHT, LRR, and PYD domains‐containing protein 3; NLRP3, apoptosis‐associated speck like protein containing a caspase recruitment domain; ASC, caspase‐1, nuclear factor‐kappa B; NF‐κB, interleukin‐6), fibrogenic makers (α‐smooth muscle actin; ɑ‐SMA, transforming growth factor; TGF‐β1, fibronectin, collagen 1) and antioxidant markers (nuclear factor (erythroid‐derived 2)‐like factor 2; Nrf2, superoxide dismutase‐1; SOD‐1, catalase). The present findings concluded that DMF protects against TAA‐induced hepatic damage mediated through the downregulation of inflammatory cascades and upregulation of antioxidant status. 相似文献
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Chowdhury Labrechai Mog Maurya Rajesh Kumar Singh Rajeev Kumar Mishra Shubhi Chauhan Nishita Jena J. K. Mohindra Vindhya 《Molecular biology reports》2021,48(11):7333-7342