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Myrsini Sakarika Janne Spanoghe Yixing Sui Eva Wambacq Oliver Grunert Geert Haesaert Marc Spiller Siegfried E. Vlaeminck 《Microbial biotechnology》2020,13(5):1336-1365
Purple non-sulphur bacteria (PNSB) are phototrophic microorganisms, which increasingly gain attention in plant production due to their ability to produce and accumulate high-value compounds that are beneficial for plant growth. Remarkable features of PNSB include the accumulation of polyphosphate, the production of pigments and vitamins and the production of plant growth-promoting substances (PGPSs). Scattered case studies on the application of PNSB for plant cultivation have been reported for decades, yet a comprehensive overview is lacking. This review highlights the potential of using PNSB in plant production, with emphasis on three key performance indicators (KPIs): fertilization, resistance to stress (biotic and abiotic) and environmental benefits. PNSB have the potential to enhance plant growth performance, increase the yield and quality of edible plant biomass, boost the resistance to environmental stresses, bioremediate heavy metals and mitigate greenhouse gas emissions. Here, the mechanisms responsible for these attributes are discussed. A distinction is made between the use of living and dead PNSB cells, where critical interpretation of existing literature revealed the better performance of living cells. Finally, this review presents research gaps that remain yet to be elucidated and proposes a roadmap for future research and implementation paving the way for a more sustainable crop production. 相似文献
163.
Dual actions of procainamide on batrachotoxin-activated sodium channels: open channel block and prevention of inactivation. 总被引:4,自引:4,他引:0
We have investigated the action of procainamide on batrachotoxin (BTX)-activated sodium channels from bovine heart and rat skeletal muscle. When applied to the intracellular side, procainamide induced rapid, open-channel block. We estimated rate constants using amplitude distribution analysis (Yellen, G. 1984. J. Gen. Physiol. 84:157). Membrane depolarization increased the blocking rate and slowed unblock. The rate constants were similar in both magnitude and voltage dependence for cardiac and skeletal muscle channels. Qualitatively, this block resembled the fast open-channel block by lidocaine (Zamponi, G. W., D. D. Doyle, and R. J. French. 1993. Biophys. J. 65:80), but procainamide was about sevenfold less potent. Molecular modeling suggests that the difference in potency between procainamide and lidocaine might arise from the relative orientation of their aromatic rings, or from differences in the structure of the aryl-amine link. For the cardiac channels, procainamide reduced the frequency of transitions to a long-lived closed state which shows features characteristic of inactivation (Zamponi, G. W., D. D. Doyle, and R. J. French. 1993. Biophys J. 65:91). Mean durations of kinetically identified closed states were not affected. The degree of fast block and of inhibition of the slow closures were correlated. Internally applied QX-314, a lidocaine derivative and also a fast blocker, produced a similar effect. Thus, drug binding to the fast blocking site appears to inhibit inactivation in BTX-activated cardiac channels. 相似文献
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Inverted Design for High‐Performance Supercapacitor Via Co(OH)2‐Derived Highly Oriented MOF Electrodes
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Ting Deng Yue Lu Wei Zhang Manling Sui Xiaoyuan Shi Dong Wang Weitao Zheng 《Liver Transplantation》2018,8(7)
Metal organic frameworks (MOFs) are considered as promising candidates for supercapacitors because of high specific area and potential redox sites. However, their shuffled orientations and low conductivity nature lead to severely‐degraded performance. Designing an accessibly‐manipulated and efficient method to address those issues is of outmost significance for MOF application in supercapacitors. It is the common way that MOFs scarify themselves as templates or precursors to prepare target products. But to reversely think it, using target products to prepare MOF could be the way to unlock the bottleneck of MOFs' performance in supercapacitors. Herein, a novel strategy using Co(OH)2 as both the template and precursor to fabricate vertically‐oriented MOF electrode is proposed. The electrode shows a double high specific capacitance of 1044 Fg?1 and excellent rate capability compared to MOF in powder form. An asymmetric supercapacitor was also fabricated, which delivers a maximum energy density of 28.5 W h kg?1 at a power density of 1500 W kg?1, and the maximum of 24000 W kg?1 can be obtained with a remaining energy density of 13.3 W h kg?1. Therefore, the proposed strategy paves the way to unlock the inherent advantages of MOFs and also inspires for advanced MOF synthesis with optimum performance. 相似文献
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Valentin Magidson Jie He Jeffrey G. Ault Christopher B. O’Connell Nachen Yang Irina Tikhonenko Bruce F. McEwen Haixin Sui Alexey Khodjakov 《The Journal of cell biology》2016,212(3):307-319
Kinetochores attach chromosomes to the spindle microtubules and signal the spindle assembly checkpoint to delay mitotic exit until all chromosomes are attached. Light microscopy approaches aimed to indirectly determine distances between various proteins within the kinetochore (termed Delta) suggest that kinetochores become stretched by spindle forces and compact elastically when the force is suppressed. Low Delta is believed to arrest mitotic progression in taxol-treated cells. However, the structural basis of Delta remains unknown. By integrating same-kinetochore light microscopy and electron microscopy, we demonstrate that the value of Delta is affected by the variability in the shape and size of outer kinetochore domains. The outer kinetochore compacts when spindle forces are maximal during metaphase. When the forces are weakened by taxol treatment, the outer kinetochore expands radially and some kinetochores completely lose microtubule attachment, a condition known to arrest mitotic progression. These observations offer an alternative interpretation of intrakinetochore tension and question whether Delta plays a direct role in the control of mitotic progression. 相似文献
170.
T Hara K Hirano N Hirano H Tamura H Sui T Shibuya A Hyogo T Hirashio H Tokai Y Yamashita K Kura 《Mutation research》1999,444(2):297-307
As a part of the 2nd Collaborative Study for the Transgenic Mouse Mutation Assay, we studied the organ specificity and the temporal changes in mutant frequency (MF) of the lacZ gene following intraperitoneal injection of 250 mg/kg N-propyl-N-nitrosourea into male MutaMouse. We used a positive selection system and examined eight organs, i.e., bone marrow, liver, kidney, lung, spleen, brain, heart, and testis. The chemical caused a significant increase in MF in all organs except for brain, and the bone marrow was the most sensitive organ, exhibiting a MF on day 7 that was 10 times that of the control. The MF increased from day 7 to day 28 in liver, kidney, and testis, while it decreased in bone marrow. The relationship between the results of this study and the target organs of carcinogenesis, and the cause of the temporal changes in MF, are discussed. 相似文献