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991.
柑橘大实蝇是柑橘类果树的一种重要害虫,近几年在我国柑橘种植区的危害呈上升趋势,给柑橘产业造成了巨大损失。本文概述了环境因素包括温度、光周期、营养状况(饥渴)以及水淹对柑橘大实蝇生物学特性和成虫行为的影响,柑橘大实蝇成虫和幼虫人工饲养技术参数,柑橘大实蝇蛹滞育机制,辐照不育关键技术包括最佳辐照剂量和辐照时期,及其在湖北柑橘园柑橘大实蝇防控中的应用与示范情况等,并指出了尚需进一步开展的研究内容。 相似文献
992.
采用顶空固相微萃取-气相色谱-质谱联用技术对产自国内外4个地区的丁香(Eugenia caryophyllata Thunb.)挥发性成分进行了检测,并以峰面积归一化法计算了各组分的相对含量。结果显示,从4个产地13批次丁香中共鉴定出挥发性成分72种(匹配度均高于75),其中,主要成分含量排名前两位的均为丁香酚、(-)-α-芹子烯,排名第三位的挥发性成分分别为:顺式-α-没药烯(马达加斯加塔马塔夫,平均为3.75%)、罗勒烯(中国广东,平均为4.21%)、亚麻三烯(中国广西,平均为3.74%)、丁香烯(印度尼西亚爪哇岛,平均为3.60%)。表明同一产地的丁香挥发性成分具有一定的相似性,不同产地丁香挥发性成分也有一定的差异,这对丁香产地的鉴别具有重要意义。主成分分析和聚类分析的结果既可以将4个产地的丁香很好地区分开来,又能反映出它们之间的亲缘关系。本研究采用HS-SPME-GC-MS方法检测不同产地丁香挥发性成分并结合主成分分析(PCA)及聚类分析法,能有效区分4个产地的丁香,该方法可作为丁香产地的鉴别方法,也为进一步比较不同产地丁香挥发性成分的差异及质量控制提供了新思路。 相似文献
993.
994.
Kun Song Wei Hu Fei Yue Jing Zou Wenjiao Li Qi Chen Qizhi Yao Weijia Sun Leyuan Liu 《PloS one》2015,10(11)
Background and Aim
Autophagy is a cellular process to regulate the turnover of misfolded/aggregated proteins or dysfunctional organelles such as damaged mitochondria. Microtubule-associated protein MAP1S (originally named C19ORF5) is a widely-distributed homologue of neuronal-specific MAP1A and MAP1B with which autophagy marker light chain 3 (LC3) was originally co-purified. MAP1S bridges autophagic components with microtubules and mitochondria through LC3 and positively regulates autophagy flux from autophagosomal biogenesis to degradation. The MAP1S-mediated autophagy suppresses tumorigenesis as suggested in a mouse liver cancer model and in prostate cancer patients. The TGFβ signaling pathway plays a central role in pancreatic tumorigenesis, and high levels of TGFβ suggest a tumor suppressive function and predict a better survival for some patients with resectable pancreatic ductal adenocarcinoma. In this study, we try to understand the relationship between TGFβ and MAP1S-mediated autophagy in pancreatic ductal adenocarcinoma.Methods
We collected the tumor and its adjacent normal tissues from 33 randomly selected patients of pancreatic ductal adenocarcinomas to test the association between TGFβ and autophagy markers MAP1S and LC3. Then we tested the cause and effect relation between TGFβ and autophagy markers in cultured pancreatic cancer cell lines.Results
Here we show that levels of TGFβ and autophagy markers MAP1S and LC3 are dramatically elevated in tumor tissues from patients with pancreatic ductal adenocarcinomas. TGFβ increases levels of MAP1S protein and enhances autophagy flux.Conclusion
TGFβ may suppress the development of pancreatic ductal adenocarcinomas by enhancing MAP1S-mediated autophagy. 相似文献995.
The incidence of acute kidney injury in patients with diabetes is significantly higher than that of patients without diabetes, and may be associated with the poor stemness capacity of kidney stem cells (KSCs) and limited recovery of injured renal tubules. To investigate the effects of hyperglycemic stress on KSC stemness, KSCs were isolated from the rat renal papilla and analyzed for their self-renewal and differentiation abilities. Our results showed that isolated KSCs expressed the mesenchymal stem cell markers N-cadherin, Nestin, CD133, CD29, CD90, and CD73. Moreover, KSCs co-cultured with hypoxia-injured renal tubular epithelial cell (RTECs) induced the expression of the mature epithelial cell marker CK18, suggesting that the KSCs could differentiate into RTECs in vitro. However, KSC proliferation, differentiation ability and tolerance to hypoxia were decreased in high-glucose cultures. Taken together, these results suggest the high-glucose microenvironment can damage the reparative ability of KSCs. It may result in a decreased of recovery capability of renal tubules from injury. 相似文献
996.
997.
Sirtuin 1 (Sirt1) is an NAD+-dependent protein deacetylase that is proposed to mediate many health-promoting effects of calorie restriction (CR). We recently reported that short-term CR increased the bile acid (BA) pool size in mice, likely due to increased BA synthesis in liver. Given the important role of Sirt1 in the regulation of glucose, lipid, as well as BA metabolism, we hypothesized that the CR-induced increase in BAs is Sirt1-dependent. To address this, the present study utilized genetically-modified mice that were Sirt1 loss of function (liver knockout, LKO) or Sirt1 gain of function (whole body-transgenic, TG). Three genotypes of mice (Sirt1-LKO, wild-type, and Sirt1-TG) were each randomly divided into ad libitum or 40% CR feeding for one month. BAs were extracted from various compartments of the enterohepatic circulation, followed by BA profiling by UPLC-MS/MS. CR increased the BA pool size and total BAs in serum, gallbladder, and small intestine. The CR-induced increase in BA pool size correlated with the tendency of increase in the expression of the rate-limiting BA-synthetic enzyme Cyp7a1. However, in contrast to the hypothesis, the CR-induced increase in BA pool size and Cyp7a1 expression was still observed with ablated expression of Sirt1 in liver, and completely suppressed with whole-body overexpression of Sirt1. Furthermore, in terms of BA composition, CR increased the ratio of 12α-hydroxylated BAs regardless of Sirt1 genotypes. In conclusion, the CR-induced alterations in BA pool size, BA profiles, and expression of BA-related genes do not appear to be dependent on Sirt1. 相似文献
998.
999.
自噬是一种广泛存在于真核细胞中的溶酶体依赖性分解代谢途径,涉及细胞分化、饥饿耐受和免疫防御等生物学功能.其中,异体自噬被定义为真核细胞特异性识别并清除胞内病原微生物的过程,是免疫细胞行使宿主防御的重要方式.然而,许多病原微生物已经"开发"了特殊的毒力因子(包括效应蛋白质和表面蛋白质等),衍生出多种逃避或劫持自噬作用的策... 相似文献
1000.
Yexian Yuan Pingwen Xu Qingyan Jiang Xingcai Cai Tao Wang Wentong Peng Jiajie Sun Canjun Zhu Cha Zhang Dong Yue Zhihui He Jinping Yang Yuxian Zeng Man Du Fenglin Zhang Lucas Ibrahimi Sarah Schaul Yuwei Jiang Jiqiu Wang Jia Sun Qiaoping Wang Liming Liu Songbo Wang Lina Wang Xiaotong Zhu Ping Gao Qianyun Xi Cong Yin Fan Li Guli Xu Yongliang Zhang Gang Shu 《The EMBO journal》2021,40(14)
The authors approached the journal to correct a mistake in the data presented in Appendix␣Fig S3D. The authors state that the mouse images in Appendix␣Fig S3D mistakenly displayed images from Fig 2F and Appendix␣Fig S1F. The images in Appendix␣Fig S3D are herewith corrected. The authors state that this change does not affect the conclusions or the statistics. The source data for these panels have been added to the original publication.The authors note that the following sentence needs to be corrected from: Appendix Figure S3D. Original. Appendix Figure S3D. Corrected. “Interestingly, several well‐established accumulation signatures of succinate, malate, hypoxanthine, and xanthine induced by endurance exercise (Lewis et␣al, 2010) were found to be decreased by endurance exercise (Figs 1D and EV1A–D)”.to“Interestingly, several well‐established accumulation signatures of succinate, malate, hypoxanthine, and xanthine induced by endurance exercise (Lewis et␣al, 2010) were found to be decreased by resistance exercise (Figs 1D and EV1A–D)”.Further, the authors requested to amend the legend of Appendix␣Fig S3R to indicate that the same sample for the iWAT group, “WT+2%AKG” treatment, is shown in Fig 3P. The corrected legend reads: “(R‐S). Representative images (R) and quantification (S) of p‐HSL DAB staining from male OXGR1OEAG mice treated with AKG for 12 weeks (n = 6 per group). The same sample is shown as in Fig 3P ”.The authors regret these errors and any confusion they may have caused. All authors approve of this correction. 相似文献