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1.
To prevent sodium toxicity in plants, Na+ is excluded from the cytosol to the apoplast or the vacuole by Na+/H+ antiporters. The secondary active transport of Na+ to apoplast against its electrochemical gradient is driven by plasma membrane H+-ATPases that hydrolyze ATP and pump H+ across the plasma membrane. Current methods to determine Na+ flux rely either on the use of Na-isotopes (22Na) which require special working permission or sophisticated equipment or on indirect methods estimating changes in the H+ gradient due to H+-ATPase in the presence or absence of Na+ by pH-sensitive probes. To date, there are no methods that can directly quantify H+-ATPase-dependent Na+ transport in plasma membrane vesicles. We developed a method to measure bidirectional H+-ATPase-dependent Na+ transport in isolated membrane vesicle systems using atomic absorption spectrometry (AAS). The experiments were performed using plasma membrane-enriched vesicles isolated by aqueous two-phase partitioning from leaves of Populus tomentosa. Since most of the plasma membrane vesicles have a sealed right-side-out orientation after repeated aqueous two-phase partitioning, the ATP-binding sites of H+-ATPases are exposed towards inner side. Leaky vesicles were preloaded with Na+ sealed for the study of H+-ATPase-dependent Na+ transport. Our data implicate that Na+ movement across vesicle membranes is highly dependent on H+-ATPase activity requiring ATP and Mg2+ and displays optimum rates of 2.50 μM Na+ mg− 1 membrane protein min− 1 at pH 6.5 and 25 °C. In this study, for the first time, we establish new protocols for the preparation of sealed preloaded right-side-out vesicles for the study of H+-ATPase-dependent Na+ transport. The results demonstrate that the Na+ content of various types of plasma membrane vesicle can be directly quantified by AAS, and the results measured using AAS method were consistent with those determined by the previous established fluorescence probe method. The method is a convenient system for the study of bidirectional H+-ATPase-dependent Na+ transport with membrane vesicles. 相似文献
2.
A semi-continuous magnetic particle-based process for the controlled attachment of PEG (PEGylation) to proteins is described for the first time. Trypsin and 2 kDa mono-activated PEG were used to systematically develop the steps in the process. Proof of concept was shown in a microfluidics system to minimize reagent consumption. Two streams containing (i) 1.2 g/L trypsin and (ii) 4 g/L magnetic adsorbents derivatized with the reversible affinity ligand benzamidine were pumped into a pipe reactor. At the exit, a third solution of activated PEG (0-40 g/L) was introduced and the solutions immediately fed into a second reactor. Upon exiting, the mixture was combined in a third reactor with a fourth stream of free amine groups to stop the reaction (50 mM lysine). The mixture continued into a high-gradient magnetic separator where magnetic supports, with PEGylated trypsin still attached, were captured and washing and elution steps were subsequently carried out. Analysis of the conjugates (with SDS-PAGE & LC-MS) showed that the extent of PEGylation could be controlled by varying the reaction time or PEG concentration. Furthermore, the PEG-conjugates had higher enzyme activity compared to PEGylation of non-immobilized trypsin. 相似文献
3.
Summary (Ring-U)-14C-benzoate was not utilized by various denitrifying bacteria (pure cultures of Pseudomonas aeruginosa, Acinetobacter sp. and Moraxella sp. or a mixed population) in the presence of nitrate as the only electron acceptor (completely anaerobic conditions). In the presence of only traces of molecular oxygen (introduced by porous tubing), denitrification did occur under inappropriate experimental conditions. This indicates that an apparent anaerobic fission of the benzene nucleus may occur. 相似文献
4.
Improved Thin-Layer Technique for Detection of Arginine Dihydrolase Among the Pseudomonas Species 总被引:3,自引:1,他引:2 下载免费PDF全文
The detection of arginine dihydrolase among Pseudomonas spp. by thin-layer chromatography is described. The method is based on the procedure of Williams and co-workers (1971) but was improved in sensitivity by selection of a better solvent system. 相似文献
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Arginine dihydrolase activity in species of the genus Bacillus revealed by thin-layer chromatography 总被引:4,自引:0,他引:4
J C Ottow 《Journal of general microbiology》1974,84(1):209-213
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Brinker M Brosché M Vinocur B Abo-Ogiala A Fayyaz P Janz D Ottow EA Cullmann AD Saborowski J Kangasjärvi J Altman A Polle A 《Plant physiology》2010,154(4):1697-1709
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Metabolism of the Plasticizer di-n-Butylphthalate by Pseudomonas pseudoalcaligenes Under Anaerobic Conditions, with Nitrate as the Only Electron Acceptor 总被引:2,自引:1,他引:1 下载免费PDF全文
The metabolism of di-n-butylphthalate by a denitrifying strain of Pseudomonas pseudoalcaligenes B20b1 was studied under anaerobic conditions, with nitrate as the only electron acceptor. Thin-layer chromatography and mass spectral analysis of culture extracts (20 days at 30°C) showed mono-n-butylphthalate and phthalic acid as the only products, suggesting that one butanol moiety served essentially as the carbon source for growth and denitrification. N2 and N2O were detected by gas chromatography. In contrast to aerobic metabolism, phthalate was not degraded further if nitrate was the only electron acceptor. 相似文献
10.
To prevent sodium toxicity in plants, Na(+) is excluded from the cytosol to the apoplast or the vacuole by Na(+)/H(+) antiporters. The secondary active transport of Na(+) to apoplast against its electrochemical gradient is driven by plasma membrane H(+)-ATPases that hydrolyze ATP and pump H(+) across the plasma membrane. Current methods to determine Na(+) flux rely either on the use of Na-isotopes ((22)Na) which require special working permission or sophisticated equipment or on indirect methods estimating changes in the H(+) gradient due to H(+)-ATPase in the presence or absence of Na(+) by pH-sensitive probes. To date, there are no methods that can directly quantify H(+)-ATPase-dependent Na(+) transport in plasma membrane vesicles. We developed a method to measure bidirectional H(+)-ATPase-dependent Na(+) transport in isolated membrane vesicle systems using atomic absorption spectrometry (AAS). The experiments were performed using plasma membrane-enriched vesicles isolated by aqueous two-phase partitioning from leaves of Populus tomentosa. Since most of the plasma membrane vesicles have a sealed right-side-out orientation after repeated aqueous two-phase partitioning, the ATP-binding sites of H(+)-ATPases are exposed towards inner side. Leaky vesicles were preloaded with Na(+) sealed for the study of H(+)-ATPase-dependent Na(+) transport. Our data implicate that Na(+) movement across vesicle membranes is highly dependent on H(+)-ATPase activity requiring ATP and Mg(2+) and displays optimum rates of 2.50 microM Na(+) mg(-1) membrane protein min(-1) at pH 6.5 and 25 degrees C. In this study, for the first time, we establish new protocols for the preparation of sealed preloaded right-side-out vesicles for the study of H(+)-ATPase-dependent Na(+) transport. The results demonstrate that the Na(+) content of various types of plasma membrane vesicle can be directly quantified by AAS, and the results measured using AAS method were consistent with those determined by the previous established fluorescence probe method. The method is a convenient system for the study of bidirectional H(+)-ATPase-dependent Na(+) transport with membrane vesicles. 相似文献