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131.
132.
工业的迅猛发展使得重金属污染加剧,得到了人们的广泛关注。铬(Cr)在化工业中的广泛应用,使其成为一种主要的环境污染重金属离子。酿酒酵母是研究金属毒性最常用的生物之一。本文比较了三种铬盐(三氯化铬、三氧化铬、重铬酸钾)对酿酒酵母生长的影响,半抑制浓度的两种价态铬(Cr^3+,Cr^6+)处理酵母细胞,Cr^6+引起细胞的致死率更高。已有研究表明谷胱甘肽是胞内重要的还原剂,常用于细胞的重金属解毒,因此探究了两种价态的铬对酵母胞内谷胱甘肽水平的影响。结果显示重铬酸钾和三氧化铬浓度的升高都会引起胞内含量显著降低,而三氯化铬基本不变,过表达GSH1基因有利于提高酵母细胞对Cr^6+的抗性,但对Cr^3+没有明显效果,这说明两种价态铬在胞内生化作用方式不同,细胞应对的解毒机制也不一样。该研究对工业含铬废弃物处理和微生物治理环境污染提供了理论依据。 相似文献
133.
目的分析结直肠息肉切除术患者肠道微生态失调情况及其与癌变进展的相关性。方法前瞻性选择2015年7月至2016年7月在我院行结直肠息肉切除术的89例患者为研究对象,评价所有研究对象手术前后肠道菌群计数、肠道菌群失调情况,采用单因素和多因素Logistic回归分析结直肠息肉切除术患者癌变的影响因素。结果结直肠息肉患者术后大肠埃希菌计数(10.85±0.50)、粪肠球菌计数(10.12±0.55)显著高于术前(8.34±0.41,7.76±0.37)(均P0.01),结直肠息肉患者术后双歧杆菌计数(2.56±0.68)、乳杆菌计数(2.83±0.71)显著低于术前(5.20±1.06,5.93±0.88)(均P0.01)。结直肠息肉患者术后Ⅰ度菌群失调比例(23.60%)显著低于术前(55.06%)(P0.05),结直肠息肉患者术后Ⅱ、Ⅲ度菌群失调比例(50.56%,25.84%)显著高于术前(34.83%,10.11%)(均P0.05)。随访3年显示89例结直肠息肉切除术患者癌变率为33.71%,性别、病理类型不同的结直肠息肉切除术患者癌变率差异无统计学意义(均P0.05),年龄、遗传史、息肉直径、肠道菌群失调程度不同的结直肠息肉切除术患者癌变率差异具有统计学意义(均P0.05)。年龄、遗传史、肠道菌群失调程度是结直肠息肉切除术患者癌变的影响因素(均P0.05)。结论结直肠息肉切除术患者存在明显肠道微生态失调情况,肠道微生态失调是结直肠息肉切除术患者癌变的危险因素,这对临床防治结直肠息肉切除术患者癌变有重要指导意义。 相似文献
134.
135.
Fang Wang Dunmei Lin Wei Li Pengpeng Dou Le Han Mingfen Huang Shenhua Qian Jingmei Yao 《Ecology and evolution》2020,10(17):9257-9270
Litter decomposition, a fundamental process of nutrient cycling and energy flow in freshwater ecosystems, is driven by a diverse array of decomposers. As an important component of the heterotrophic food web, meiofauna can provide a trophic link between leaf‐associated microbes (i.e., bacteria and fungi)/plant detritus and macroinvertebrates, though their contribution to litter decomposition is not well understood. To investigate the role of different decomposer communities in litter decomposition, especially meiofauna, we compared the litter decomposition of three leaf species with different lignin to nitrogen ratios in litter bags with different mesh sizes (0.05, 0.25, and 2 mm) in a forested stream, in China for 78 days. The meiofauna significantly enhanced the decomposition of leaves of high‐and medium‐ quality, while decreasing (negative effect) or increasing (positive effect) the fungal biomass and diversity. Macrofauna and meiofauna together contributed to the decomposition of low‐quality leaf species. The presence of meiofauna and macrofauna triggered different aspects of the microbial community, with their effects on litter decomposition varying as a function of leaf quality. This study reveals that the meiofauna increased the trophic complexity and modulated their interactions with microbes, highlighting the important yet underestimated role of meiofauna in detritus‐based ecosystems. 相似文献
136.
Xue-Jun Cheng Fu-Lai Guan Qian Li Gong Dai Hai-Feng Li Xue-Kun Li 《World journal of stem cells》2020,12(11):1354-1365
BACKGROUNDAs the third most abundant element, aluminum is widespread in the environment. Previous studies have shown that aluminum has a neurotoxic effect and its exposure can impair neuronal development and cognitive function.AIMTo study the effects of aluminum on epigenetic modification in neural stem cells and neurons. METHODSNeural stem cells were isolated from the forebrain of adult mice. Neurons were isolated from the hippocampi tissues of embryonic day 16-18 mice. AlCl3 at 100 and 200 μmol/L was applied to stem cells and neurons. RESULTSAluminum altered the differentiation of adult neural stem cells and caused apoptosis of newborn neurons while having no significant effects on the proliferation of neural stem cells. Aluminum application also significantly inhibited the dendritic development of hippocampal neurons. Mechanistically, aluminum exposure significantly affected the levels of DNA 5-hydroxy-methylcytosine, 5-methylcytosine, and N6-methyladenine in stem cells and neurons. CONCLUSIONOur findings indicate that aluminum may regulate neuronal development by modulating DNA modifications. 相似文献
137.
恰玛古(Qamgur, Brassica rapa L.)内生菌的研究主要集中在内生真菌,内生放线菌的研究报道较少。通过研究新疆药食两用植物恰玛古内生放线菌多样性,以期发现产新活性物质的放线菌或新种放线菌,为研究微生物药物奠定基础。从恰玛古根、茎和叶三个部位分离培养获得内生放线菌,对其菌落与个体形态进行观察,并利用序列测定方法进行鉴定,以获取其分类地位。从恰玛古三个部位共分离得到17株内生放线菌,其中12株为革兰氏阳性杆菌,3株为革兰氏阳性球菌,2株为革兰氏阳性丝状菌;17株内生放线菌分属于红球菌属(Rhodococcus)、拟诺卡氏菌属(Nocardiopsis)、链霉菌属(Streptomyces)、短杆菌属(Brevibacterium)、小短杆菌属(Brachybacterium)、两面神菌属(Janibacter)和微杆菌属(Microbacterium)。从新疆药食两用植物恰玛古中分离获得17株内生放线菌以稀有放线菌为主。 相似文献
138.
Fang Yu Jiangbo Wei Xiaolong Cui Chunjie Yu Wei Ni Jrg Bungert Lizi Wu Chuan He Zhijian Qian 《Nucleic acids research》2021,49(10):5779
Faithful genome integrity maintenance plays an essential role in cell survival. Here, we identify the RNA demethylase ALKBH5 as a key regulator that protects cells from DNA damage and apoptosis during reactive oxygen species (ROS)-induced stress. We find that ROS significantly induces global mRNA N6-methyladenosine (m6A) levels by modulating ALKBH5 post-translational modifications (PTMs), leading to the rapid and efficient induction of thousands of genes involved in a variety of biological processes including DNA damage repair. Mechanistically, ROS promotes ALKBH5 SUMOylation through activating ERK/JNK signaling, leading to inhibition of ALKBH5 m6A demethylase activity by blocking substrate accessibility. Moreover, ERK/JNK/ALKBH5-PTMs/m6A axis is activated by ROS in hematopoietic stem/progenitor cells (HSPCs) in vivo in mice, suggesting a physiological role of this molecular pathway in the maintenance of genome stability in HSPCs. Together, our study uncovers a molecular mechanism involving ALKBH5 PTMs and increased mRNA m6A levels that protect genomic integrity of cells in response to ROS. 相似文献
139.
Chai Qian Meng Ziang Lu Dexue Zhang Ziying Liu Meili Wu Weihua 《Molecular and cellular biochemistry》2021,476(6):2479-2489
Molecular and Cellular Biochemistry - Cardiomyocyte death is an important pathogenic process in cardiac complications of diabetes. Diabetic patients often suffer glycemic variability. Pyroptosis is... 相似文献
140.
Xiaolei Chen Zhongmei Yang Wenfeng Wang Kaiyue Qian Mingjie Liu Junchao Wang Mingzhu Wang 《Nucleic acids research》2021,49(5):2946
RBM45 is an RNA-binding protein involved in neural development, whose aggregation is associated with neurodegenerative diseases, such as amyotrophic lateral sclerosis (ALS) and frontotemporal lobar dementia (FTLD). However, the mechanisms of RNA-binding and aggregation of RBM45 remain unelucidated. Here, we report the crystal structure of the N-terminal tandem RRM domains of human RBM45 in complex with single-stranded DNA (ssDNA). Our structural and biochemical results revealed that both the RRM1 and RRM2 of RBM45 recognized the GAC sequence of RNA/ssDNA. Two aromatic residues and an arginine residue in each RRM were critical for RNA-binding, and the interdomain linker was also involved in RNA-binding. Two RRMs formed a pair of antiparallel RNA-binding sites, indicating that the N-terminal tandem RRM domains of RBM45 bound separate GAC motifs in one RNA strand or GAC motifs in different RNA strands. Our findings will be helpful in the identification of physiologic targets of RBM45 and provide evidence for understanding the physiologic and pathologic functions of RBM45. 相似文献