共查询到19条相似文献,搜索用时 22 毫秒
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目的:利用Red系统构建肠出血性大肠杆菌O157:H7的sRNA基因E40缺失突变株。方法:选取本实验室预测并经过实验验证的sRNA基因,根据NCBI上相应的序列,设计2对引物分别扩增该sRNA基因的上下游分别长464和455bp的同源臂,经PCR扩增,构建到相应的载体,最后以构建好的含上下游同源臂和卡那霉素抗性基因的长约2500bp的线性片段作为打靶片段,在Red重组系统的作用下与sRNA基因E40的上下游同源区域发生同组,从而把sRNA基因从基因组上置换下来,之后利用质粒pCP20将FRT位点间的卡那霉素抗性基因消除。结果与结论:构建了出血性大肠杆菌O157:H7的sRNA基因E40的缺失突变株,为进一步研究sRNA基因在出血性大肠杆菌O157:H7生长及致病过程中所起的功能奠定了良好的基础。 相似文献
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大肠杆菌O157:H7是肠出血型大肠杆菌(EHEC)的主要病原血清型,它可产生特殊的粘附因子粘附靶细胞,产生Vero毒素和肠溶血素毒力因子.近几年对大肠杆菌O157:H7的毒力因子有了深入的了解,对致病机理作了一些探讨,用实验动物对保护性免疫进行了研究.本文对近几年来0157:H7大肠杆菌的致病因子及其主要的保护性免疫的研究作一简要综述. 相似文献
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大肠杆菌O157∶H7感染流行概况 总被引:1,自引:0,他引:1
王燕 《微生物学免疫学进展》2008,36(1):51-58
大肠杆菌O157∶H7是肠出血性大肠杆菌的主要病原血清型,可引起腹泻、出血性肠炎,极易继发溶血性尿毒综合症和血栓性血小板减少性紫癜两种严重的并发症,死亡率高。1982年被发现以来,大肠杆菌O157∶H7已在世界多个国家引起过爆发流行,呈现了流行的世界性,中国也于上世纪90年代末在局部地区出现了爆发,死亡率极高,引起了相关部门的高度重视。本综述试图通过对大肠杆菌O157∶H7在世界范围流行状况的描述,提高公众对该病的认识,为相关疫苗的研发提供流行病学资料。 相似文献
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以编码大肠杆菌O157抗原的rfbE基因、 编码H7抗原的fliC基因以及编码毒力因子的eaeA基因为靶基因, 选择3对引物, 建立并优化了检测大肠杆菌O157:H7的多重PCR体系, 扩增产物分别为291 bp、625 bp、368 bp, 采用30株细菌验证了该多重PCR具有特异性。PCR检测的灵敏度在DNA水平上达到91.35 pg; 在存在干扰菌鼠伤寒沙门氏菌(Salmonella?typhimurium)的情况下, 当起始污染量为1.4 CFU/mL时, 37 ℃培养6 h 即可检出。在30份肉类样品中, 有3份检出了大肠杆菌O157:H7。本研究建立的多重PCR方法可特异、灵敏地实现对大肠杆菌O157:H7的检测。 相似文献
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大肠杆菌O157:H7核酸探针检测方法的建立 总被引:1,自引:0,他引:1
目的:应用核酸探针方法快速检测大肠杆菌O157:H7。方法:通过使用吖啶酯标记的特异DNA探针方法检测大肠杆菌O157:H7,对此种方法的特异性、敏感性、准确性进行研究,比较该方法与传统国标法的检测结果。结果:核酸探针方法检测大肠杆菌O157:H7特异性以及敏感性强,检出大肠杆菌O157:H7菌液浓度最低限约为106cfu/ml,检测大肠杆菌O157:H7的结果与国标法相一致;对O157:H7鉴定时间仅需30min,简便快捷。结论:核酸探针方法可用于大肠杆菌O157:H7的快速检测。 相似文献
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【背景】肠出血性大肠杆菌(enterohemorrhagic Escherichia coli,EHEC) O157:H7和肠致病性大肠杆菌(enteropathogenic E. coli,EPEC) O55:H7是2株常见食源性致病菌,能导致腹泻及肠道外疾病,其特异性噬菌体具有制备新型抗菌制剂的应用前景。【目的】分离能特异裂解O157:H7和O55:H7的噬菌体,并分析其生物学特性和基因组特征,探索致病性大肠杆菌防控的抗生素替代方法。【方法】利用双层平板法从环境水样中分离噬菌体,对其形态、感染复数、宿主范围、一步曲线等生物学特性进行鉴定,使用Illumina MiSeq平台对其全基因组进行测序,利用RAST、Prokka、BLASTp等软件进行生物信息学分析。【结果】分别以E.coli O157:H7和O55:H7为宿主分离出2株特异性烈性噬菌体:vB_EcoM_P251和vB_EcoM_P255,均属于肌尾病毒科(Myoviridae)。最佳感染复数均为1,在培养15min内能以91.9%和90.8%的速率吸附到宿主细胞上,而且在37-60℃、pH4.0-11.0条件下保持高且稳... 相似文献
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【目的】建立一种同时快速检测大肠杆菌O157:H7(E.coli O157:H7)和鼠伤寒沙门氏菌(Salmonella typhimurium)的可视化抗体阵列技术。【方法】将免疫学技术与蛋白芯片技术相结合,基于双抗体夹心法检测原理利用蛋白质芯片技术的高通量,结合可视化结果判定技术,用一份样品,同步检测大肠杆菌O157:H7和鼠伤寒沙门氏菌两种病原。【结果】检测结果肉眼可见,检测周期短至90 min,纯菌液检测灵敏度达105 CFU/mL,模拟带菌检测灵敏度为106 CFU/mL,与常规的ELISA灵敏度等同且具有良好的特异性和重复性。【结论】该可视化抗体阵列检测结果肉眼可见,检测通量高,无需大型设备,操作简便,检测成本低廉,同时为快速检测致病菌提供一种新途径。 相似文献
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顾江 《微生物学免疫学进展》2009,37(1)
TCCP(內膜素受体偶联细胞骨架蛋白,Tir couple cytoskeleton protein)是近年研究新发现的EHEC(肠出血性大肠杆菌)O157∶H7致病分子,它经大肠杆菌Ⅲ型分泌系统转导入宿主细胞内,结合并活化宿主蛋白N-WASP(神经威奥综合症蛋白),引起肌动蛋白的聚集,最终诱导特征病理改变黏附、擦拭(A/E)损伤的形成。本文就近年来对它的研究情况作一简要综述。 相似文献
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摘要:细菌sRNA是一类长度在40~500 nt之间的非编码RNA,主要以不完全碱基配对方式与靶标mRNA5′端相互作用进而发挥其生物学功能。鉴于预测方法可以为细菌sRNA及其靶标的实验发现提供指导,因此,细菌sRNA与靶标预测研究受到了广泛重视。文章首先将sRNA预测方法分为3类,分别是基于比较基因组学的预测方法、基于转录单元的预测方法和基于机器学习的预测方法;其次,将sRNA靶标预测方法分为2类,分别是序列比较方法与基于RNA二级结构的预测方法;最后对各类方法的原理、核心思想、优点和局限性进行了分析,并探讨了进一步的发展方向。 相似文献
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Yuan Cao Jiayao Wu Qian Liu Yalin Zhao Xiaomin Ying Lei Cha Ligui Wang Wuju Li 《RNA (New York, N.Y.)》2010,16(11):2051-2057
Bacterial sRNAs are an emerging class of small regulatory RNAs, 40–500 nt in length, which play a variety of important roles in many biological processes through binding to their mRNA or protein targets. A comprehensive database of experimentally confirmed sRNA targets would be helpful in understanding sRNA functions systematically and provide support for developing prediction models. Here we report on such a database—sRNATarBase. The database holds 138 sRNA–target interactions and 252 noninteraction entries, which were manually collected from peer-reviewed papers. The detailed information for each entry, such as supporting experimental protocols, BLAST-based phylogenetic analysis of sRNA–mRNA target interaction in closely related bacteria, predicted secondary structures for both sRNAs and their targets, and available binding regions, is provided as accurately as possible. This database also provides hyperlinks to other databases including GenBank, SWISS-PROT, and MPIDB. The database is available from the web page http://ccb.bmi.ac.cn/srnatarbase/. 相似文献
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Rice has many characteristics of a model plant. The recent completion of the draft of the rice genome represents an important advance in our knowledge of plant biology and also has an important contribution to the understanding of general genomic evolution. Besides the rice genome finishing map, the next urgent step for rice researchers is to annotate the genes and noncoding functional sequences. The recent work shows that noncoding RNAs (ncRNAs) play significant roles in biological systems. We have explored all the known small RNAs (a kind of ncRNA) within rice genome and other six species sequences, including Arabidopsis, maize, yeast, worm, mouse and pig. As a result we find 160 out of 552 small RNAs (sRNAs) in database have homologs in 108 rice scaffolds, and almost all of them (99.41%) locate in intron regions of rice by gene predication. 19 sRNAs only appear in rice. More importantly, we find two special LJ14 sRNAs: one is located in a set of sRNA ZMU14SNR9(s) which only appears in three plants, 86% sequences of them can be compared as the same sequence in rice, Arabidopsis and maize; the other conserved sRNA XLHS7CU14 has a segment which appears in almost all these species from plants to animals. All these results indicate that sRNA do not have evident borderline between plants and animals. 相似文献
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Rice has many characteristics of a model plant. The recent completion of the draft of the rice genome represents an important advance in our knowledge of plant biology and also has an important contribution to the understanding of general genomic evolution. Besides the rice genome finishing map, the next urgent step for rice researchers is to annotate the genes and non-coding functional sequences. The recent work shows that noncoding RNAs (ncRNAs) play significant roles in biological systems. We have explored all the known small RNAs (a kind of ncRNA) within rice genome and other six species sequences, including Arabidopsis, maize, yeast, worm, mouse and pig. As a result we find 160 out of 552 small RNAs (sRNAs) in database have ho-mologs in 108 rice scaffolds, and almost all of them (99.41 %) locate in intron regions of rice by gene predication. 19 sRNAs only appear in rice. More importantly, we find two special U14 sRNAs: one is located in a set of sRNA ZMU14SNR9(s) which only appears in three plants, 相似文献
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Madeline C Krieger H Auguste Dutcher Andrew J Ashford Rahul Raghavan 《Molecular biology and evolution》2022,39(2)
Small RNAs (sRNAs) are important gene regulators in bacteria, but it is unclear how new sRNAs originate and become part of regulatory networks that coordinate bacterial response to environmental stimuli. Using a covariance modeling-based approach, we analyzed the presence of hundreds of sRNAs in more than a thousand genomes across Enterobacterales, a bacterial order with a confluence of factors that allows robust genome-scale sRNA analyses: several well-studied organisms with fairly conserved genome structures, an established phylogeny, and substantial nucleotide diversity within a narrow evolutionary space. We discovered that a majority of sRNAs arose recently, and uncovered protein-coding genes as a potential source from which new sRNAs arise. A detailed investigation of the emergence of OxyS, a peroxide-responding sRNA, revealed that it evolved from a fragment of a peroxidase messenger RNA. Importantly, although it replaced the ancestral peroxidase, OxyS continues to be part of the ancestral peroxide-response regulon, indicating that an sRNA that arises from a protein-coding gene would inherently be part of the parental protein’s regulatory network. This new insight provides a fresh framework for understanding sRNA origin and regulatory integration in bacteria. 相似文献
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Sebastian Benjamin Schnoor;Peter Neubauer;Matthias Gimpel; 《Wiley interdisciplinary reviews. RNA》2024,15(1):e1824
Dual-function sRNAs refer to a small subgroup of small regulatory RNAs that merges base-pairing properties of antisense RNAs with peptide-encoding properties of mRNA. Both functions can be part of either same or in another metabolic pathway. Here, we want to update the knowledge of to the already known dual-function sRNAs and review the six new sRNAs found since 2017 regarding their structure, functional mechanisms, evolutionary conservation, and role in the regulation of distinct biological/physiological processes. The increasing identification of dual-function sRNAs through bioinformatics approaches, RNomics and RNA-sequencing and the associated increase in regulatory understanding will likely continue to increase at the same rate in the future. This may improve our understanding of the physiology, virulence and resistance of bacteria, as well as enable their use in technical applications. 相似文献
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细菌非编码小RNA(small non-coding RNA, sRNA)是一类长度在50~500个核苷酸, 不编码蛋白质的RNA。迄今, 在各种细菌中共发现超过150多种sRNA。它们通过碱基配对识别靶标mRNA, 在转录后水平调节基因的表达, 是细菌代谢、毒力和适应环境压力的重要调节因子。细菌sRNA的研究技术主要有基于生物信息学的计算机预测法和基于实验室的检测分析方法。这些方法所得到的sRNA都需要进行实验室确认, 然后再进一步通过各种实验手段研究其功能。 相似文献
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Bacteria contain a diverse set of RNAs to provide tight regulation of gene expression in response to environmental stimuli. Bacterial small RNAs (sRNAs) work in conjunction with protein cofactors to bind complementary mRNA sequences in the cell, leading to up‐ or downregulation of protein synthesis. In vivo imaging of sRNAs can aid in understanding their spatiotemporal dynamics in real time, which inspires new ways to manipulate these systems for a variety of applications including synthetic biology and therapeutics. Current methods for sRNA imaging are quite limited in vivo and do not provide real‐time information about fluctuations in sRNA levels. Herein, we describe our efforts toward the development of an RNA‐based fluorescent biosensor for bacterial sRNA both in vitro and in vivo. We validated these sensors for three different bacterial sRNAs in Escherichia coli and demonstrated that the designs provide a bright, sequence‐specific signal output in response to exogenous and endogenous RNA targets. 相似文献