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131.
Kong Tao Zhang Shu-Hui Zhang Cai Zhang Ji-Liang Yang Fan Wang Guo-Yong Yang Zi-Jun Bai Dong-Ying Shi Yun-Yun Liu Tian-Qi Li Hai-Long 《Biological trace element research》2020,194(2):443-443
Biological Trace Element Research - The original version of this article unfortunately contained a mistake. The correct title should be “The Effects of 50 nm Unmodified Nano-ZnO on Lipid... 相似文献
132.
Xiao Xiao Bai Peng Cao Shuqiang Jiang Youjing Liang Weibo Wang Tao Luo Xiaolei Guan Qiaozhi Gao Linbo Zhang Lin 《Neurochemical research》2020,45(4):928-939
Neurochemical Research - High-throughput and bioinformatics technology have been broadly applied to demonstrate the key molecules involved in traumatic brain injury (TBI), while no study has... 相似文献
133.
Zhenpeng Li Zeqiong Cai Weixin Fu Ying Liu Chenglei Tian He Wang Tongtong Fu Zhenzhou Wu Donghai Wu Yongxin Jin Zhihui Cheng Naohiro Terada Lin Liu Weihui Wu Shouguang Jin Fang Bai 《Biotechnology and bioengineering》2020,117(3):816-831
Intracellular delivery of functional proteins is of great interest for basic biological research as well as for clinical applications. Transfection is the most commonly used method, however, it is not applicable to large-scale manipulation and inefficient in important cell types implicated in biomedical applications, such as epithelial, immune and pluripotent stem cells. In this study, we explored a bacterial type III secretion system (Bac-T3SS)-mediated proteofection method to overcome these limitations. An attenuated Pseudomonas aeruginosa vector was constructed, which has features of low toxicity, high T3SS activity, and self-limiting growth. Compared to the method of transfection, the Bac-T3SS showed significantly higher efficiencies of Cre recombinase translocation and target site recombination for hard-to-transfect human cell lines. Furthermore, through the delivery of β-lactamase in live animals, we demonstrated the feasibility and biosafety of in vivo application of the Bac-T3SS. This study provided an efficient and low-cost proteofection strategy for laboratory use as well as for application in large-scale cell manipulations. 相似文献
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135.
Jiawei Shi Zhen Wang Xiaobin Guo Jining Shen Houyi Sun Jiaxiang Bai Binqing Yu Liangliang Wang Wei Zhou Yu Liu Wen Zhang Huilin Yang Yaozeng Xu Jun Zhou Dechun Geng 《Journal of cellular physiology》2020,235(3):2599-2608
Excessive osteoclast recruitment and activation is the chief cause of periprosthetic osteolysis and subsequent aseptic loosening, so blocking osteolysis may be useful for protecting against osteoclastic bone resorption. We studied the effect of aspirin on titanium (Ti)-particle-induced osteolysis in vivo and in vitro using male C57BL/6J mice randomized to sham (sham surgery), Ti (Ti particles), low-dose aspirin (Ti/5 mg·kg−1·d−1 aspirin), and high-dose aspirin (Ti/30 mg·kg−1·d−1 aspirin). After 2 weeks, a three-dimensional reconstruction evaluation using micro-computed tomography and histomorphology assessment were performed on murine calvariae. Murine hematopoietic macrophages and RAW264.7 lineage cells were studied to investigate osteoclast formation and function. Aspirin attenuated Ti-particle-induced bone erosion and reduced osteoclasts. In vitro, aspirin suppressed osteoclast formation, osteoclastic-related gene expression, and osteoclastic bone erosion in a dose-dependent manner. Mechanically, aspirin reduced osteoclast formation by suppressing receptor activator of nuclear factor kappa-B ligand-induced activation of extracellular signal-related kinase, p-38 mitogen-activated protein kinase, and c-Jun N-terminal kinase. Thus, aspirin may be a promising option for preventing and curing osteoclastic bone destruction, including peri-implant osteolysis. 相似文献
136.
Rui Bai Wanlin Liu Aiqing Zhao Zhenqun Zhao Dianming Jiang 《Molecular biology reports》2013,40(3):2419-2430
Many studies have investigated the associations between methylenetetrahydrofolate reductase (MTHFR) C677T and A1298C polymorphisms and risk of fractures, but the impact of MTHFR polymorphisms on fractures risk is unclear owing to the obvious inconsistence among those studies. This study aims to quantify the strength of association between MTHFR C677T and A1298C polymorphisms and risk of fractures. We searched the PubMed, Embase and Wanfang databases for articles relating the association between MTHFR C677T and A1298C polymorphisms and risk of fractures in humans. We estimated summary odds ratios (ORs) with their confidence intervals (CIs) to assess the associations. Meta-analyses suggested MTHFR C677T polymorphism was associated with increased risk of any site fractures (for T vs. C, OR = 1.17, 95 % CI 1.03–1.32; for TT vs. CC, OR = 1. 31, 95 % CI 1.11–1.54; for TT vs. CT, OR = 1.22, 95 % CI 1.04–1.43; for TT vs. CT/CC, OR = 1.31, 95 % CI 1.13–1.51). Besides, MTHFR A1298C polymorphism was also associated with increased risk of any site fractures. Subgroup meta-analyses suggested MTHFR C677T polymorphism was associated with increased risk of vertebral fractures under three genetic contrast modes (for TT vs. CC, OR = 1.43, 95 % CI 1.05–1.95; for TT vs. CT, OR = 1.36, 95 % CI 1.01–1.85; for TT vs. CT/CC, OR = 1.50, 95 % CI 1.17–1.91), but there was no association between MTHFR C677T polymorphism and risk of hip fractures and non-vertebral fractures (all P values were more than 0.05). Thus, individuals with homozygote genotype TT of MTHFR C677T have obviously increased risk of vertebral fractures compared those with heterozygote genotype CT or homozygote genotype CC. There is no association between MTHFR C677T polymorphism and risk of hip fractures and non-vertebral fractures. 相似文献
137.
The 3′ untranslated region (3′UTR) of hepatitis C virus (HCV) messenger RNA stimulates viral translation by an undetermined mechanism. We identified a high affinity interaction, conserved among different HCV genotypes, between the HCV 3′UTR and the host ribosome. The 3′UTR interacts with 40S ribosomal subunit proteins residing primarily in a localized region on the 40S solvent-accessible surface near the messenger RNA entry and exit sites. This region partially overlaps with the site where the HCV internal ribosome entry site was found to bind, with the internal ribosome entry site-40S subunit interaction being dominant. Despite its ability to bind to 40S subunits independently, the HCV 3′UTR only stimulates translation in cis, without affecting the first round translation rate. These observations support a model in which the HCV 3′UTR retains ribosome complexes during translation termination to facilitate efficient initiation of subsequent rounds of translation. 相似文献
138.
Heat stress is one of a wide variety of factors causing liver injury, a small heat shock protein (HSP), HSP32, is induced by heat stress in the liver. But the biological function of HSP32 in this injury is unclear. To investigate the underlying role of HSP32, RT-PCR, immunocytochemical staining and ELISA were applied to confirm the expression of HSP32. And the underlying mechanism in the pathogenesis of hepatic dysfunction following hyperthermic challenge and the possible involvement of oxidative stress to induce oxidative deterioration of liver functions in developing mice were investigated in this study. Caspase-3mRNA expression and caspase-3 activity of heated liver were also analysed. The results showed that liver injury caused by chronic heat stress(39 °C, 1.5 h/day for 6 weeks) was reversible, caspase-3mRNA expression and caspase-3 activity of heat treated mice were increased after the first three weeks of heat exposure (P<0.05) and high expression levels of HSP32 were observed throughout the duration of experiment (P<0.01). A strong correlation exists between heat-induced liver injury and the induction of HSP32, which suggested that the reversibility of liver injury is involved in the induction of HSP32 in the hepatic cells under continuing heat stress. 相似文献
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140.
Qiulin Wu Lixia Gou Shuangjun Lin Jingdan Liang Jun Yin Xiufen Zhou Linquan Bai Derong An Zixin Deng Zhijun Wang 《Biochimie》2013
Calcimycin is a rare divalent cation specific ionophore antibiotic that has many biochemical and pharmaceutical applications. We have recently cloned and sequenced the Streptomyces chartreusis calcimycin biosynthesis gene cluster as well as identified the genes required for the synthesis of the polyketide backbone of calcimycin. Additional modifying or decorating enzymes are required to convert the polyketide backbone into the biologically active calcimycin. Using targeted mutagenesis of Streptomyces we were able to show that calM from the calcimycin biosynthesis gene cluster is required for calcimycin production. Inactivating calM by PCR targeting, caused high level accumulation of N-demethyl calcimycin. CalM in the presence of S-adenosyl-L-methionine converted N-demethyl calcimycin to calcimycin in vitro. The enzyme was determined to have a kinetic parameter of Km 276 μM, kcat 1.26 min−1 and kcat/Km 76.2 M−1 s−1. These results proved that CalM is a N-methyltransferase that is required for calcimycin biosynthesis, and they set the stage for generating much desired novel calcimycin derivatives by rational genetic and chemical engineering. 相似文献