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61.
62.
Synthesis of fluorescent and low cytotoxicity phenol formaldehyde resin (PFR)@Ag composites for cell imaging and antibacterial activity
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Ping Yang Hao Dong Jun Xia Andong Xu Jianjun Shi Jie He Jianzhong Ding Dewei Li 《Luminescence》2015,30(8):1413-1417
Ag nanoparticles (NPs) were loaded onto the surface of phenol formaldehyde resin (PFR) NPs without any reducing agent. The as‐synthesized PFR@Ag composites have low cytotoxicity, which makes them promising antibacterial agents. Furthermore, the good fluorescence of PFR could be used for cell imaging. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
63.
Tingting Hu Shuqiang Weng Wenqing Tang Ruyi Xue She Chen Guoxiang Cai Yu Cai Xizhong Shen Si Zhang Ling Dong 《PloS one》2015,10(5)
MethodsWe used Western blotting and immunohistochemistry to examine BIRC6 expression in 7 CRC cell lines and 126 CRC clinical samples. We determined the biological significance of BIRC6 in CRC cell lines by a lentivirus-mediated silencing method.ResultsWe reported that BIRC6 was overexpressed in CRC cell lines and clinical CRC tissues. BIRC6 overexpression was correlated with tumor size and invasion depth of CRC. BIRC6 overexpression is associated with worse overall survival (OS) (P = 0.001) and shorter disease-free survival (DFS) (P = 0.010). BIRC6 knockdown inhibited cell proliferation, arrested cell cycle at S phase, downregulated cyclin A2, B1, D1 and E1 levels, and sensitized CRC cells to chemotherapy in vitro and in vivo.ConclusionsTaken together, these data suggests that BIRC6 overexpression is a predictor of poor prognosis in colorectal cancer and BIRC6 could be a potential target of CRC therapy. 相似文献
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Structural maintenance of chromosome (SMC) proteins comprise the core of several specialized complexes that stabilize the global architecture of the chromosomes by dynamically linking distant DNA fragments. This reaction however remains poorly understood giving rise to numerous proposed mechanisms of the proteins. Using two novel assays, we investigated real‐time formation of DNA bridges by bacterial condensin MukBEF. We report that MukBEF can efficiently bridge two DNAs and that this reaction involves multiple steps. The reaction begins with the formation of a stable MukB–DNA complex, which can further capture another protein‐free DNA fragment. The initial tether is unstable but is quickly strengthened by additional MukBs. DNA bridging is modulated but is not strictly dependent on ATP and MukEF. The reaction revealed high preference for right‐handed DNA crossings indicating that bridging involves physical association of MukB with both DNAs. Our data establish a comprehensive view of DNA bridging by MukBEF, which could explain how SMCs establish both intra‐ and interchromosomal links inside the cell and indicate that DNA binding and bridging could be separately regulated. 相似文献
66.
A novel factor FLOURY ENDOSPERM2 is involved in regulation of rice grain size and starch quality 总被引:6,自引:0,他引:6
She KC Kusano H Koizumi K Yamakawa H Hakata M Imamura T Fukuda M Naito N Tsurumaki Y Yaeshima M Tsuge T Matsumoto K Kudoh M Itoh E Kikuchi S Kishimoto N Yazaki J Ando T Yano M Aoyama T Sasaki T Satoh H Shimada H 《The Plant cell》2010,22(10):3280-3294
Rice (Oryza sativa) endosperm accumulates a massive amount of storage starch and storage proteins during seed development. However, little is known about the regulatory system involved in the production of storage substances. The rice flo2 mutation resulted in reduced grain size and starch quality. Map-based cloning identified FLOURY ENDOSPERM2 (FLO2), a member of a novel gene family conserved in plants, as the gene responsible for the rice flo2 mutation. FLO2 harbors a tetratricopeptide repeat motif, considered to mediate a protein-protein interactions. FLO2 was abundantly expressed in developing seeds coincident with production of storage starch and protein, as well as in leaves, while abundant expression of its homologs was observed only in leaves. The flo2 mutation decreased expression of genes involved in production of storage starch and storage proteins in the endosperm. Differences between cultivars in their responsiveness of FLO2 expression during high-temperature stress indicated that FLO2 may be involved in heat tolerance during seed development. Overexpression of FLO2 enlarged the size of grains significantly. These results suggest that FLO2 plays a pivotal regulatory role in rice grain size and starch quality by affecting storage substance accumulation in the endosperm. 相似文献
67.
Water dynamics clue to key residues in protein folding 总被引:1,自引:0,他引:1
Meng Gao Xin-Qiu Yao Zhen-Su She 《Biochemical and biophysical research communications》2010,392(1):95-10887
A computational method independent of experimental protein structure information is proposed to recognize key residues in protein folding, from the study of hydration water dynamics. Based on all-atom molecular dynamics simulation, two key residues are recognized with distinct water dynamical behavior in a folding process of the Trp-cage protein. The identified key residues are shown to play an essential role in both 3D structure and hydrophobic-induced collapse. With observations on hydration water dynamics around key residues, a dynamical pathway of folding can be interpreted. 相似文献
68.
基于生物学核心概念进行课堂教学,对提高学生的生物科学素养有着重要的意义。以“遗传信息的传递”为例,围绕核心概念设计教学活动,帮助学生获得核心概念。 相似文献
69.
Fusicoccin (FC) treatment prevents dark‐induced stomatal closure, the mechanism of which is still obscure. By using pharmacological approaches and laser‐scanning confocal microscopy, the relationship between FC inhibition of dark‐induced stomatal closure and the hydrogen peroxide (H2O2) levels in guard cells in broad bean was studied. Like ascorbic acid (ASA), a scavenger of H2O2 and diphenylene iodonium (DPI), an inhibitor of H2O2‐generating enzyme NADPH oxidase, FC was found to inhibit stomatal closure and reduce H2O2 levels in guard cells in darkness, indicating that FC‐caused inhibition of dark‐induced stomatal closure is related to the reduction of H2O2 levels in guard cells. Furthermore, like ASA, FC not only suppressed H2O2‐induced stomatal closure and H2O2 levels in guard cells treated with H2O2 in light, but also reopened the stomata which had been closed by darkness and reduced the level of H2O2 that had been generated by darkness, showing that FC causes H2O2 removal in guard cells. The butyric acid treatment simulated the effects of FC on the stomata treated with H2O2 and had been closed by dark, and on H2O2 levels in guard cells of stomata treated with H2O2 and had been closed by dark, and both FC and butyric acid reduced cytosol pH in guard cells of stomata treated with H2O2 and had been closed by dark, which demonstrates that cytosolic acidification mediates FC‐induced H2O2 removal. Taken together, our results provide evidence that FC causes cytosolic acidification, consequently induces H2O2 removal, and finally prevents dark‐induced stomatal closure. 相似文献
70.
Nazina TN Grigor'ian AA Feng Ts Shestakova NM Babich TL Pavlova NK Ivoĭlov VS Ni F Wang J She Y Xiang T Mei B Luo Z Beliaev SS Ivanov MV 《Mikrobiologiia》2007,76(3):340-353
Microbiological technology for the enhancement of oil recovery based on the activation of the stratal microflora was tested in the high-temperature horizons of the Kongdian bed (60 degrees C) of the Dagang oil field (China). This biotechnology consists in the pumping of a water-air mixture and nitrogen and phosphorus mineral salts into the oil stratum through injection wells in order to stimulate the activity of the stratal microflora which produce oil-releasing metabolites. Monitoring of the physicochemical, microbiological, and production characteristics of the test site has revealed large changes in the ecosystem as a result of the application of biotechnology. The cell numbers of thermophilic hydrocarbon-oxidizing, fermentative, sulfate-reducing, and methanogenic microorganisms increased 10-10 000-fold. The rates of methanogenesis and sulfate reduction increased in the near-bottom zone of the injection wells and of some production wells. The microbial oil transformation was accompanied by the accumulation of bicarbonate ions, volatile fatty acids, and biosurfactants in the formation waters, as well as of CH4 and CO2 both in the gas phase and in the oil. Microbial metabolites promoted the additional recovery of oil. As a result of the application of biotechnology, the water content in the production liquid from the test site decreased, and the oil content increased. This allowed the recovery of more than 14000 tons of additional oil over 3.5 years. 相似文献