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41.
江西新建县土地利用时空动态特征分析 总被引:7,自引:0,他引:7
在RS与GIS支持下,以江西省新建县为研究区,采用与土地利用动态度相关的一系列时空特征指数,研究了1991、1996和2000年3个时间段上土地利用的时空动态特征.结果表明,单一土地利用动态中建设用地变化动态度最大;1991~2000年间研究区域综合土地利用动态度年均变化速度为0.165%,其中前5年变化速度比后4年快,为后者1.5倍多.1991、1996和2000年土地利用程度综合指数分别为243.68、244.08和244.87,稍高于全国平均水平23192.新建县1996~2000年各种土地利用类型总的空间转移量(转出或转入)比前一时段有所下降,土地利用变化逐渐由双向转移向单向不平衡转移转化. 相似文献
42.
玉米赤霉烯酮(zearalenone,ZEN)是一种雌激素类真菌毒素,可以与动物的雌激素受体竞争性结合,导致动物生殖系统内的激素紊乱。ZEN内酯水解酶(ZEN lactone hydrolase,ZHD)可以水解ZEN中的内酯键,进而使其转化为无雌激素毒性的产物。【目的】利用生物信息学分析以及酶学性质探索,鉴定出一个具有新特性的ZEN内酯水解酶。【方法】构建pET28a-zhd11f表达载体,在大肠杆菌BL21(DE3)中诱导表达ZHD11F,利用Ni-NTA纯化得到ZHD11F,对其酶学性质进行分析,并通过结构模拟和分子动力学分析阐明ZHD11F低温活性的机制。【结果】ZHD11F以ZEN为底物,比酶活为40.04 U/mg,最适反应温度与pH值分别为35 °C和8.0,在pH 6.0–9.5的范围内具有超过60%的酶活力,在35 °C以下具有较好的热稳定性,能够耐受多种金属离子。ZHD11F在10 °C和20 °C时,其活性分别保持20%和40%。更多的loop区增加了结构的柔韧性是该酶稳定性较差、在低温活性比较高的主要原因。【结论】Phialophora attae是瓶霉属的一种真菌,目前此真菌来源的酶极少被鉴定。关于本研究将Phialophora attae来源的ZEN内酯水解酶ZHD11F,在大肠杆菌中成功可溶性表达并得到纯酶,表征分析显示该酶是目前报道的第一个低温ZEN内酯水解酶,为研究此类酶的耐冷机制、广温度范围提供了候选,同时拓展了Phialophora attae来源酶的功能研究。 相似文献
43.
Zheng X Hudyma TW Martin SW Bergstrom C Ding M He F Romine J Poss MA Kadow JF Chang CH Wan J Witmer MR Morin P Camac DM Sheriff S Beno BR Rigat KL Wang YK Fridell R Lemm J Qiu D Liu M Voss S Pelosi L Roberts SB Gao M Knipe J Gentles RG 《Bioorganic & medicinal chemistry letters》2011,21(10):2925-2929
Herein, we present initial SAR studies on a series of bridged 2-arylindole-based NS5B inhibitors. The introduction of bridging elements between the indole N1 and the ortho-position of the 2-aryl moiety resulted in conformationally constrained heterocycles that possess multiple additional vectors for further exploration. The binding mode and pharmacokinetic (PK) properties of select examples, including: 13-cyclohexyl-6-oxo-6,7-dihydro-5H-indolo[2,1-d][1,4]benzodiazepine-10-carboxylic acid (7) (IC50 = 0.07 μM, %F = 18), are reported. 相似文献
44.
Jin Wang Lirong Tan Beibei Jia Xiaofan Yu Ruixin Yao Nan OUYang Xueting Yu Xiyuan Cao Jian Tong Tao Chen Rui Chen Jianxiang Li 《International journal of biological sciences》2021,17(10):2633
Lung cancer is one of the most common types of carcinoma worldwide. Cigarette smoking is considered the leading cause of lung cancer. Aberrant expression of several YT521-B homology (YTH) family proteins has been reported to be closely associated with multiple cancer types. The present study aims to evaluate the function and regulatory mechanisms of the N6-methyladenosine (m6A) reader protein YTH domain containing 2 (YTHDC2) by in vitro, in vivo and bioinformatics analyses. The results revealed that YTHDC2 was reduced in lung cancer and cigarette smoke-exposed cells. Notably, bioinformatics and tissue arrays analysis demonstrated that decreased YTHDC2 was highly associated with smoking history, pathological stage, invasion depth, lymph node metastasis and poor outcomes. The in vivo and in vitro studies revealed that YTHDC2 overexpression inhibited the proliferation and migration of lung cancer cells as well as tumor growth in nude mice. Furthermore, YTHDC2 decreased expression was modulated by copy number deletion in lung cancer. Importantly, the cylindromatosis (CYLD)/NF-κB pathways were confirmed as the downstream signaling of YTHDC2, and this axis was mediated by m6A modification. The present results indicated that smoking-related downregulation of YTHDC2 was associated with enhanced proliferation and migration in lung cancer cells, and appeared to be regulated by DNA copy number variation. Importantly, YTHDC2 functions as a tumor suppressor through the CYLD/NF-κB signaling pathway, which is mediated by m6A modification. 相似文献
45.
Min Yao Xiaofan Liu Shuo Li Yi Xu Yijun Zhou Xueping Zhou Xiaorong Tao 《Journal of virology》2014,88(6):3223-3234
46.
47.
Xiaoqi Han Gaojie Xu Zhonghua Zhang Xiaofan Du Pengxian Han Xinhong Zhou Guanglei Cui Liquan Chen 《Liver Transplantation》2019,9(16)
Dual‐ion batteries (DIBs) with high operation voltage offer promising candidates for low‐cost clean energy chemistries. However, there still exist tough issues, including structural collapse of the graphite cathode due to solvent co‐intercalation and electrolyte decomposition on the electrode/electrolyte interface, which results in unsatisfactory cyclability and fast battery failure. Herein, Li4Ti5O12 (LTO) modified mesocarbon microbeads (MCMBs) are proposed as a cathode material. The LTO layer functions as a skeleton and offers electrocatalytic active sites for in situ generation of a favorable and compatible cathode electrolyte interface (CEI) layer. The synergetic LTO‐CEI network can change the thermodynamic behavior of the PF6? intercalation process and maintain the structural integrity of the graphite cathode, as a “Great Wall” to protect the cathode from structural collapse and electrolyte decomposition. Such LTO‐CEI reinforced cathode exhibits a prolonged cyclability with 85.1% capacity retention after 2000 cycles even at cut‐off potential of 5.4 V versus Li+/Li. Moreover, the LTO‐modified MCMB (+)//prelithiated MCMB (?) full cell exhibits a high energy density of ≈200 Wh kg?1, remarkably enhanced cyclability with 93.5% capacity retention after 1000 cycles. Undoubtedly, this work offers in‐depth insight into interface chemistry, which can arouse new originality to boost the development of DIBs. 相似文献
48.
Gao T Zhang X Ivleva NB Golden SS LiWang A 《Protein science : a publication of the Protein Society》2007,16(3):465-475
The circadian input kinase (CikA) is a major element of the pathway that provides environmental information to the circadian clock of the cyanobacterium Synechococcus elongatus. CikA is a polypeptide of 754 residues and has three recognizable domains: GAF, histidine protein kinase, and receiver-like. This latter domain of CikA lacks the conserved phospho-accepting aspartyl residue of bona fide receiver domains and is thus a pseudo-receiver (PsR). Recently, it was shown that the PsR domain (1) attenuates the autokinase activity of CikA, (2) is necessary to localize CikA to the cell pole, and (3) is necessary for the destabilization of CikA in the presence of the quinone analog 2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone (DBMIB). The solution structure of the PsR domain of CikA, CikAPsR, is presented here. A model of the interaction between the PsR domain and HPK portion of CikA provides a potential explanation for how the PsR domain attenuates the autokinase activity of CikA. Finally, a likely quinone-binding surface on CikAPsR is shown here. 相似文献
49.
50.
In plants, multiple detached tissues are capable of forming a pluripotent cell mass, termed callus, when cultured on media containing appropriate plant hormones. Recent studies demonstrated that callus resembles the root-tip meristem, even if it is derived from aerial organs. This finding improves our understanding of the regeneration process of plant cells; however, the molecular mechanism that guides cells of different tissue types to form a callus still remains elusive. Here, we show that genome-wide reprogramming of histone H3 lysine 27 trimethylation (H3K27me3) is a critical step in the leaf-to-callus transition. The Polycomb Repressive Complex 2 (PRC2) is known to function in establishing H3K27me3. By analyzing callus formation of mutants corresponding to different histone modification pathways, we found that leaf blades and/or cotyledons of the PRC2 mutants curly leaf swinger (clf swn) and embryonic flower2 (emf2) were defective in callus formation. We identified the H3K27me3-covered loci in leaves and calli by a ChIP-chip assay, and we found that in the callus H3K27me3 levels decreased first at certain auxin-pathway genes. The levels were then increased at specific leaf genes but decreased at a number of root-regulatory genes. Changes in H3K27me3 levels were negatively correlated with expression levels of the corresponding genes. One possible role of PRC2-mediated H3K27me3 in the leaf-to-callus transition might relate to elimination of leaf features by silencing leaf-regulatory genes, as most leaf-preferentially expressed regulatory genes could not be silenced in the leaf explants of clf swn. In contrast to the leaf explants, the root explants of both clf swn and emf2 formed calli normally, possibly because the root-to-callus transition bypasses the leaf gene silencing process. Furthermore, our data show that PRC2-mediated H3K27me3 and H3K27 demethylation act in parallel in the reprogramming of H3K27me3 during the leaf-to-callus transition, suggesting a general mechanism for cell fate transition in plants. 相似文献