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Chenran Wang Song Chen Syn Yeo Gizem Karsli-Uzunbas Eileen White Noboru Mizushima Herbert W. Virgin Jun-Lin Guan 《The Journal of cell biology》2016,212(5):545-560
Autophagy plays important roles in many biological processes, but our understanding of the mechanisms regulating stem cells by autophagy is limited. Interpretations of earlier studies of autophagy using knockouts of single genes are confounded by accumulating evidence for other functions of many autophagy genes. Here, we show that, in contrast to Fip200 deletion, inhibition of autophagy by deletion of Atg5, Atg16L1, or Atg7 does not impair the maintenance and differentiation of postnatal neural stem cells (NSCs). Only Fip200 deletion, but not Atg5, Atg16L1, or Atg7 deletion, caused p62/sequestome1 aggregates to accumulate in NSCs. Fip200 and p62 double conditional knockout mice demonstrated that p62 aggregate formation triggers aberrant superoxide increases by impairing superoxide dismutase functions. By comparing the inhibition of autophagy by deletion of Atg5, Atg16L1, or Atg7 with Fip200 deletion, we revealed a critical role of increased p62 in determining the fate of autophagy-deficient NSCs through intracellular superoxide control. 相似文献
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Controlling and Defence‐related Mechanisms of Bacillus Strains Against Bacterial Leaf Blight of Rice 下载免费PDF全文
Ahmed S. A. Elshakh Syed Ishtiaq Anjum Wen Qiu Abdulwareth A. Almoneafy Wang Li Zhang Yang Zhou‐Qi Cui Bin Li Guo‐Chang Sun Guan‐Lin Xie 《Journal of Phytopathology》2016,164(7-8):534-546
Bacillus strains are broadly studied for their beneficial role in plant growth and biological control of plant disease and pest; however, little is known about their underlying mechanisms. In this study, we assessed the controlling and defence‐related mechanisms of three Bacillus strains including rice seed‐associated strain B. subtilis A15, rhizobacterial strains B. amyloliquefaciens D29 and B. methylotrophicus H8, all of which are against bacterial leaf blight (BLB) caused by Xanthomonas oryzae pv. oryzae. Results indicated that all three strains showed strong biofilm formation ability. The culture filtrates of each strain significantly suppressed the growth and biofilm formation of X. oryzae, while changes in bacterial cell morphology such as cell swell and severe cell wall alterations were observed through the transmission electron microscopy images. PCR analysis revealed that all three strains harbour the antimicrobial‐associated genes that are responsible for biosynthesis of bacillomycin, fengycin, iturin and surfactin. Subsequent real‐time qPCR analysis revealed the upregulated expression of fenD and srfAA genes in D29 and H8, and fenD and ituC genes in A15 during their in vitro interaction with X. oryzae. It suggests that the antibacterial mechanisms of the three strains may be at least partially associated with their ability to secrete corresponding lipopeptides. Interestingly, the applications of the three strains in greenhouse conditions were found to be effective in controlling the BLB disease, which was achieved through the activation of inducing systemic resistance resulted from the enhanced activities of defence‐related enzymes. This is the first report of demonstration of the mode of antibacterial effect of Bacillus strains against X. oryzae. Overall, data from the current study provide valuable information for biological control of BLB disease in rice. 相似文献
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Andrei Golovko Artyom Kojukhov Bo-Jhih Guan Benjamin Morpurgo William C. Merrick Barsanjit Mazumder 《Cell cycle (Georgetown, Tex.)》2016,15(22):3115-3120
Eukaryotic initiation factor 2A (eIF2A) is a 65-kDa protein that was first identified in the early 1970s as a factor capable of stimulating initiator methionyl-tRNAi (Met-tRNAMeti) binding to 40S ribosomal subunits in vitro. However, in contrast to the eIF2, which stimulates Met-tRNAMeti binding to 40S ribosomal subunits in a GTP-dependent manner, eIF2A didn't reveal any GTP-dependence, but instead was found to direct binding of the Met-tRNAMeti to 40S ribosomal subunits in a codon-dependent manner. eIF2A appears to be highly conserved across eukaryotic species, suggesting conservation of function in evolution. The yeast Saccharomyces cerevisae eIF2A null mutant revealed no apparent phenotype, however, it was found that in yeast eIF2A functions as a suppressor of internal ribosome entry site (IRES)-mediated translation. It was thus suggested that eIF2A my act by impinging on the expression of specific mRNAs. Subsequent studies in mammalian cell systems implicated eIF2A in non-canonical (non-AUG-dependent) translation initiation events involving near cognate UUG and CUG codons. Yet, the role of eIF2A in cellular functions remains largely enigmatic. As a first step toward characterization of the eIF2A function in mammalian systems in vivo, we have obtained homozygous eIF2A-total knockout (KO) mice, in which a gene trap cassette was inserted between eIF2A exons 1 and 2 disrupting expression of all exons downstream of the insertion. The KO mice strain is viable and to date displays no apparent phenotype. We believe that the eIF2A KO mice strain will serve as a valuable tool for researchers studying non-canonical initiation of translation in vivo. 相似文献
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Prostaglandin I2 upregulates the expression of anterior pharynx‐defective‐1α and anterior pharynx‐defective‐1β in amyloid precursor protein/presenilin 1 transgenic mice 下载免费PDF全文
Pu Wang Pei‐Pei Guan Jing‐Wen Guo Long‐Long Cao Guo‐Biao Xu Xin Yu Yue Wang Zhan‐You Wang 《Aging cell》2016,15(5):861-871
Cyclooxygenase‐2 (COX‐2) has been recently identified to be involved in the pathogenesis of Alzheimer's disease (AD). Yet, the role of an important COX‐2 metabolic product, prostaglandin (PG) I2, in the pathogenesis of AD remains unknown. Using human‐ and mouse‐derived neuronal cells as well as amyloid precursor protein/presenilin 1 (APP/PS1) transgenic mice as model systems, we elucidated the mechanism of anterior pharynx‐defective (APH)‐1α and pharynx‐defective‐1β induction. In particular, we found that PGI2 production increased during the course of AD development. Then, PGI2 accumulation in neuronal cells activates PKA/CREB and JNK/c‐Jun signaling pathways by phosphorylation, which results in APH‐1α/1β expression. As PGI2 is an important metabolic by‐product of COX‐2, its suppression by NS398 treatment decreases the expression of APH‐1α/1β in neuronal cells and APP/PS1 mice. More importantly, β‐amyloid protein (Aβ) oligomers in the cerebrospinal fluid (CSF) of APP/PS1 mice are critical for stimulating the expression of APH‐1α/1β, which was blocked by NS398 incubation. Finally, the induction of APH‐1α/1β was confirmed in the brains of patients with AD. Thus, these findings not only provide novel insights into the mechanism of PGI2‐induced AD progression but also are instrumental for improving clinical therapies to combat AD. 相似文献
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