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961.
The multidrug-resistant rate of Klebsiella pneumoniae has risen rapidly worldwide. To better understand the multidrug resistance situation and molecular characterization of Klebsiella pneumoniae, a total of 153 Klebsiella pneumoniae isolates were collected, and drug susceptibility test was performed to detect its susceptibility patterns to 13 kinds of antibiotics. Phenotypic tests for carbapenemases ESBLs and AmpC enzyme-producing strains were performed to detect the resistance phenotype of the isolates. Then PCR amplification and sequencing analysis were performed for the drug resistance determinants. The results showed that 63 strains harbored bla
CTX-M gene, and 14 strains harbored bla
DHA gene. Moreover, there were 5 strains carrying bla
KPC gene, among which 4 strains carried bla
CTX-M, bla
DHA and bla
KPC genes, and these 4 strains were also resistant to imipenem. Our data indicated that drug-resistant Klebsiella pneumoniae were highly prevalent in the hospital. Thus it is warranted that surveillance of epidemiology of those resistant isolates should be a cause for concern, and appropriate drugs should be chosen. 相似文献
962.
RBPJ/CBF1 interacts with L3MBTL3/MBT1 to promote repression of Notch signaling via histone demethylase KDM1A/LSD1 下载免费PDF全文
Daniel Hall Francesca Ferrante Diana M Ho Kazuya Hori Lucas Anhezini Iris Ertl Marek Bartkuhn Honglai Zhang Eléna Milon Kimberly Ha Kevin P Conlon Rork Kuick Brandon Govindarajoo Yang Zhang Yuqing Sun Yali Dou Venkatesha Basrur Kojo SJ Elenitoba‐Johnson Alexey I Nesvizhskii Julian Ceron Cheng‐Yu Lee Tilman Borggrefe Rhett A Kovall Jean‐François Rual 《The EMBO journal》2017,36(21):3232-3249
963.
分子佐剂C3d的研究进展 总被引:2,自引:0,他引:2
C3d是补体C3不可再被酶解的最小片段,在抗原特异性免疫建立之前,C3d可识别非已抗原并与之共价结合,增强了抗原递呈细胞的递呈能力、降低了B细胞的活化阈、提高特异性抗体的滴度、促进抗体亲和力成熟等。近年来研究显示,C3d还可以促进抗原特异性细胞免疫应答水平并改变机体免疫应答模式。所以,C3d是连接固有性免疫和获得性免疫的桥梁。本文对C3d的分子生物学特征、生物学功能以及作为分子佐剂可能的分子机制进行了简要总结。 相似文献
964.
Feng Wang Xiaomin Wang Chengzhou Zhao Jianfeng Wang Ping Li Yanqin Dou Yurong Bi 《Plant cell reports》2016,35(2):317-328
Key message
Alternative pathway (AP) is involved in the tolerance of highland barley seedlings to the low-nitrogen stress by dissipating excessive reducing equivalents generated by photosynthesis and maintaining the cellular redox homeostasis.Abstract
Low nitrogen (N) is a major limiting factor for plant growth and crop productivity. In this study, we investigated the roles of the alternative pathway (AP) in the tolerance of two barley seedlings, highland barley (Kunlun12) and barley (Ganpi6), to low-N stress. The results showed that the chlorophyll content and the fresh weight decreased more in Ganpi6 than those in Kunlun12 under low-N stress, suggesting that Kunlun12 has higher tolerance to low-N stress than Ganpi6. AP capacity was markedly induced by low-N stress; and it was higher in Kunlun12 than in Ganpi6. Comparatively, the cytochrome pathway capacity was not affected under all conditions. Western-blot analysis showed that the protein level of the alternative oxidase (AOX) increased under low-N stress in Kunlun12 but not in Ganpi6. Under low-N stress, the NAD(P)H content and the NAD(P)H to NAD(P)++NAD(P)H ratio in Ganpi6 increased more than those in Kunlun12. Furthermore, photosynthetic parameters (Fv/Fm, qP, ETR and Yield) decreased markedly and qN increased, indicating photoinhibition occurred in both barley seedlings, especially in Ganpi6. When AP was inhibited by salicylhydroxamic acid (SHAM), the NAD(P)H content and the NAD(P)H to NAD(P)++NAD(P)H ratio dramatically increased under all conditions, resulting in the marked accumulation of H2O2 and malondialdehyde in leaves of both barley seedlings. Meanwhile, the malate–oxaloacetate shuttle activity and the photosynthetic efficiency were further inhibited. Taken together, AP is involved in the tolerance of highland barley seedlings to low-N stress by dissipating excess reducing equivalents and maintaining the cellular redox homeostasis.965.
966.
Lin Dou Ting Zhao Lilin Wang Xiuqing Huang Juan Jiao Dan Gao Hangxiang Zhang Tao Shen Yong Man Shu Wang Jian Li 《The Journal of biological chemistry》2013,288(31):22596-22606
By influencing the activity of the PI3K/AKT pathway, IL-6 acts as an important regulator of hepatic insulin resistance. miR-200s have been shown to control growth by regulating PI3K, but the role of miR-200s in the development of hepatic insulin resistance remains unclear. The present study showed that elevated serum concentration of IL-6 is associated with decreased levels of miR-200s, impaired activation of the AKT/glycogen synthase kinase (GSK) pathway, and reduced glycogenesis that occurred in the livers of db/db mice. As shown in the murine NCTC 1469 hepatocytes and the primary hepatocytes treated with 10 ng/ml IL-6 for 24 h and in 12-week-old male C57BL/6J mice injected with 16 μg/ml IL-6 by pumps for 7 days, IL-6 administration induced insulin resistance through down-regulation of miR-200s. Moreover, IL-6 treatment inhibited the phosphorylation of AKT and GSK and decreased the glycogenesis. The effects of IL-6 could be diminished by suppression of FOG2 expression. We concluded that IL-6 treatment may impair the activities of the PI3K/AKT/GSK pathway and inhibit the synthesis of glycogen, perhaps via down-regulating miR-200s while augmenting FOG2 expression. 相似文献
967.
Carina C. D. Joe Jinlin Jiang Thomas Linke Yuanyuan Li Sofiya Fedosyuk Gaurav Gupta Adam Berg Rameswara R. Segireddy David Mainwaring Amar Joshi Paul Cashen Byron Rees Nitin Chopra Piergiuseppe Nestola Jonathan Humphreys Sarah Davies Nick Smith Scott Bruce Dennis Verbart Daan Bormans Carol Knevelman Mark Woodyer Lee Davies Lisa Cooper Maria Kapanidou Nicole Bleckwenn Daniel Pappas Teresa Lambe Daniel C. Smith Catherine M. Green Raghavan Venkat Adam J. Ritchie Sarah C. Gilbert Richard Turner Alexander D. Douglas 《Biotechnology and bioengineering》2022,119(1):48-58
Manufacturing has been the key factor limiting rollout of vaccination during the COVID-19 pandemic, requiring rapid development and large-scale implementation of novel manufacturing technologies. ChAdOx1 nCoV-19 (AZD1222, Vaxzevria) is an efficacious vaccine against SARS-CoV-2, based upon an adenovirus vector. We describe the development of a process for the production of this vaccine and others based upon the same platform, including novel features to facilitate very large-scale production. We discuss the process economics and the “distributed manufacturing” approach we have taken to provide the vaccine at globally-relevant scale and with international security of supply. Together, these approaches have enabled the largest viral vector manufacturing campaign to date, providing a substantial proportion of global COVID-19 vaccine supply at low cost. 相似文献
968.
969.
Colonization of sorghum by Macrophomina phaseolina in field plots was determined at nitrogen fertilization rates of 0, 56, 112, and 168 kg ha-1 in 1988 and 0, 84, 168, and 256 kg ha-1 in 1989. Above ground plant tissue and roots were sampled monthly to determine total nitrogen and percent colonization of root segments by natural inoculum. Root infection was not affected by nitrogen treatment, but was affected by growth stage and environment. High root infection occurred before reproductive development (growth stage 3) in 1988 and was associated with hot, dry weather early in the growing season. In 1989, when the weather was cool and wet, root infection began after reproductive development (growth stage 4). The effect of nitrogen treatments on lesion length was determined in sorghum stalks artificially inoculated with M. phaseolina. Lesion lengths were significantly affected by both nitrogen treatments and growth stage. Lesions were significantly longer with all nitrogen treatments at growth stage 9 than with the no-nitrogen treatment, and lesions tended to increase with increased levels of nitrogen fertilization. Significant increases in lesion length occurred between growth stages 5, 7, and 9 in 1988 and between 7 and 9 in 1989. This study demonstrates that nitrogen fertilization affects colonization of sorghum stalks but not root infection by M. phaseolina. 相似文献
970.
Qingbing Xia Yaru Liang Zeheng Lin Shiwen Wang Weihong Lai Ding Yuan Yuhai Dou Qinfen Gu Jia‐Zhao Wang Hua Kun Liu Shi Xue Dou Shaoming Fang Shu‐Lei Chou 《Liver Transplantation》2020,10(36)
Sodium‐ion batteries have attracted ever‐increasing attention in view of the natural abundance of sodium resources. Sluggish sodiation kinetics, nevertheless, remain a tough challenge, in terms of achieving high rate capability and high energy density. Herein, a sheet‐in‐sphere nanoconfiguration of 2D titania–carbon superlattices vertically aligned inside of mesoporous TiO2@C hollow nanospheres is constructed. In such a design, the ultrathin 2D superlattices consist of ordered alternating monolayers of titania and carbon, enabling interpenetrating pathways for rapid transport of electrons and Na+ ions as well as a 2D heterointerface for Na+ storage. Kinetics analysis discloses that the combination of 2D heterointerface and mesoporosity results an intercalation pseudocapacitive charge storage mechanism, which triggers ultrafast sodiation kinetics. In situ transmission electron microscope imaging and in situ synchrotron X‐ray diffraction techniques elucidate that the sheet‐in‐sphere architecture can maintain robust mechanical and crystallographic structural stability, resulting an extraordinary high rate capability, remarkable stable cycling with a low capacity fading ratio of 0.04% per cycle over 500 cycles at 0.2 C, and exceptionally long‐term cyclability up to 20 000 cycles at 50 C. This study offers a method for the realization of a high power density and long‐term cyclability battery by designing of a hierarchical nanoarchitecture. 相似文献