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Chen X Shang H Qiu X Fujiwara N Cui L Li XM Gao TM Kong J 《Neurochemical research》2012,37(4):835-845
Converging evidence indicates that SOD1 aggregation is a common feature of mutant SOD1-linked fALS, and seems to be directly
related to the gain-of-function toxic property. However, the mechanism inducing the aggregation is not understood. To study
the contribution of oxidative modification of cysteine residues in SOD1 aggregation, we systematically examined the redox
state of SOD1 cysteine residues in the G37R transgenic mouse model at different stages of the disease and under oxidative
stress induced by H2O2. Our data suggest that under normal circumstance, cysteine 111 residue in SOD1 is free; however, under oxidative stress,
it is prone to oxidative modification by providing the thiolate anion (S−). With the progression of the disease, increased
levels of oxidative insults facilitated the oxidation of thiol groups of cysteine residues; human mutant SOD1 could generate
an upper shift band in reducing SDS-PAGE, which turned out to be a Cys111-peroxidized SOD1 species. We also detected the formation
of SOD1 multimers at different stages of the disease, and found that accumulated oxidative stress facilitated the formation
of aggregates, which were not mediated by disulfide bond. This oxidative modification of cysteine 111 therefore promotes the
formation of disulfide bond-independent aggregation of SOD1. 相似文献
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KPC1 (Kip1 ubiquitylation-promoting complex 1) is the catalytic subunit of the ubiquitin ligase KPC, which regulates the degradation
of the cyclin-dependent kinase inhibitor p27kip1 at the G1 phase of the cell cycle. To elucidate the expression and role of KPC1 in nervous system lesion and repair, we performed
an acute spinal cord contusion injury (SCI) model in adult rats. Western blot analysis showed a significant up-regulation
of KPC1 and a concomitant down-regulation of p27kip1 following spinal injury. Immunohistochemistry and immunofluorescence revealed wide expression of KPC1 in the spinal cord,
including expression in neurons and astrocytes. After injury, KPC1 expression was increased predominantly in astrocytes, which
highly expressed PCNA, a marker for proliferating cells. Co-immunoprecipitation demonstrated increased interactions between
p27kip1 and KPC1 4 days after injury. To understand whether KPC1 plays a role in astrocyte proliferation, we applied LPS to induce
astrocyte proliferation in vitro. Western blot analysis demonstrated that p27kip1 expression was negatively correlated with KPC1 expression following LPS stimulation. Immunofluorescence analysis showed subcellular
localizations of p27kip1 and KPC1 were also changed following the stimulation of astrocytes with LPS. These results suggest that KPC1 is related to
the down-regulation of p27kip1; this event may be involved in the proliferation of astrocytes after SCI. 相似文献
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Wendan Xiao Xuezhu Ye Xiaoe Yang Zhiqiang Zhu Caixia Sun Qi Zhang 《Bioremediation Journal》2017,21(2):100-108
Two native bacterial strains, FY1 and WZ2, that showed high chromium(VI)-reducing ability were respectively isolated from electroplating and tannery effluent–contaminated sites and identified as Bacillus and Arthrobacter. The objective of the present study was to evaluate their potential for future application in soil bioremediation. The results showed that both Bacillus sp. FY1 and Arthrobacter sp. WZ2 were tolerant to 1000 mg L?1 Cr(VI) and capable of reducing 78–85% and 75–82% of Cr(VI) (100–200 mg L?1) within 24 h, respectively. The Cr(VI) reduction rate decreased with increasing levels of Cr(VI) concentration (200–1000 mg L?1). The optimum pH, temperature, and inoculum concentration for Cr(VI) reduction were found to be between pH 7.0 and 8.0; 30 and 35°C; and 1 × 108 cells ml?1, respectively. Further evidence for the bioremediation potential of Bacillus sp. FY1 and Arthrobacter sp. WZ2 was provided by the high capacity to reduce 100, 200, and 500 mg kg?1 Cr(VI) in contaminated soil by 83–91%, 78–85%, and 71–78% within 7 days, respectively. These findings demonstrated the high potential of Bacillus sp. FY1 and Arthrobacter sp. WZ2 for application in future soil bioremediation. 相似文献
46.
37份新疆粳稻品种(系)的IRAP遗传多样性分析 总被引:1,自引:0,他引:1
该研究基于4个稻属(Oryza)反转录转座子,包括活性、低拷贝[Tos17/Osr21(Ty1-copia)和RIRE7/Osr31(Ty3-gypsy)]和非活性、高拷贝[Osr34(Ty3-gypsy)和Houba/Tos5/Osr13(Ty1-copia)],在两侧翼长末端重复序列(LTR)区域分别设计引物,对37份新疆粳稻(Oryza sativa L.ssp.japonica)栽培品种(系)进行PCR扩增。评估鉴定适用于反转录转座子插入位点间扩增多态性(IRAP)标记方法,并分析37份供试品种(系)的遗传多样性。(1)PCR扩增结果显示,Tos17/Osr21、RIRE7/Osr31、Osr34和Houba/Tos5/Osr13依次获得73、63、107和560条谱带,其中多态性条带36、63、70和523个,多态性比率为49.3%、100.0%、65.4%和93.4%。(2)综合评估比较多态性、异质性、总谱带数和平均多态性谱带数发现,Houba/Tos5/Osr13适用于IRAP标记方法构建DNA指纹图谱数据库。(3)以Houba/Tos5/Osr13遗传相似系数为基础,对供试品种(系)采用非加权平均(UPGMA)法进行聚类分析显示,以0.55为阈值将37份新疆粳稻栽培品种(系)分为6大类群,绝大多数品种(系)得到了明确的区分,品种间的遗传相似性较高,多样化程度偏低;品系‘20-18’和‘96-16’分别各自聚为一类,表明品系与品种间遗传背景较远,多样化程度较高。综上所述,IRAP分子标记适用于新疆粳稻种质资源的亲缘关系分析、鉴别及育种遗传距离的判定和DNA指纹图谱数据库构建等相关研究,在实际育种中选取不同类群的水稻品种与品系进行杂交选育,成功率较高,可能会大大缩短优良品种的选育进程。 相似文献
47.
Based on the known coumarin-based prodrug system, a new meptazinol (Z)-3-[2-(propionyloxy) phenyl]-2-propenoic ester (3) was designed and synthesized as prodrug to minimize the first-pass effect of meptazinol (1) and improve the oral bioavailability. The prodrug (3) showed a 4-fold increase in oral bioavailability over the parent drug meptazinol in rats. 相似文献
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