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Bioinformatics Analysis of NprR-NprX Quorum-Sensing System of <i>Bacillus thuringiensis</i>Isolates from the Papaloapan Region, Oaxaca-Mexico
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作者 Humberto Rafael Bravo-D Alain Cruz-Nolasco +1 位作者 Luis Raúl Gutiérrez-Lucas Ana Karin Navarro-Mtz 《Advances in Biological Chemistry》 2015年第7期293-304,共12页
Quorum sensing is a chemical communication process that bacteria use to regulate collective behaviors. In Gram-positive bacteria, oligopeptides (called autoinducers) are the signaling molecules to elicit quorum sensin... Quorum sensing is a chemical communication process that bacteria use to regulate collective behaviors. In Gram-positive bacteria, oligopeptides (called autoinducers) are the signaling molecules to elicit quorum sensing. In Bacillus thuringiensis, NprR is a transcriptional regulator whose activity depends on the NprX signalling peptide. Bacillus thuringiensis is closely related to Bacillus cereus and Bacillus anthracis. The principal difference between them is that Bacillus thuringiensis is the only one that produced Cry protein. The aim of this study is to explore the relation of nprR and 16S rRNA genes in Bacillus thurin-giensis. Phylogenetic trees of nucleotide sequences of nprR and 16S rRNA genes were built. Sequences of fourteen new isolates from Papaloapan region were included in those phylo-genetic trees. In order to identify the isolates, a simple and fast methodology considering the Cry protein formation was used. The 16S rRNA phylogenetic tree allows identify eight isolates as Bacillus thuringiensis and the others as Bacillus spp. The nprR phylogenetic tree does not match with the 16S rRNA phylogenetic tree. This confirms that nprR is not a molecular marker for evolution. Most of the new isolates have the same NprR sequence (WTSDIVG). However, the SKPDIVG is the most common NprR sequence in thuringiensis species. 展开更多
关键词 quorum-sensing Bacillus THURINGIENSIS NprR-NprX Phylogenetic Tree
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细菌与细菌之间的信息交流——革兰氏阴性细菌的Quorum-Sensing系统 被引量:23
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作者 吴红 宋志军 +1 位作者 NielsHφiby Michael Givskov 《自然科学进展》 北大核心 2003年第7期679-687,共9页
人们长期以来一直认为细菌是以单个细胞的方式生存于自然界的。但是,自从10年前研究人员发现细菌与细菌之间存在着相互间的信息交流后,人们改变了对细菌的生存方式和其生理习性的认识。细菌其实是具有协同作战能力的多细胞习性微生物,... 人们长期以来一直认为细菌是以单个细胞的方式生存于自然界的。但是,自从10年前研究人员发现细菌与细菌之间存在着相互间的信息交流后,人们改变了对细菌的生存方式和其生理习性的认识。细菌其实是具有协同作战能力的多细胞习性微生物,而这种能力的形成需要依赖细胞与细胞之问的信息交流,细菌之间的信息交流涉及到细菌的多种生理功能、细菌致病能力以及细菌对抗菌素的耐药等方面。因此,了解和研究细菌的这一机制,阻断其信息交流,也许能达到削减细菌毒力的目的。文中将借助国外的最新报道,结合作者的研究成果,介绍细菌与细菌之间信息系统的由来,该系统的调节机制,研究该系统的手段、意义以及前景展望等。 展开更多
关键词 革兰氏阴性细菌 quorum-sensing系统 信息交流 群体感应 生理功能 调节机制
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Piericidins, Novel Quorum-Sensing Inhibitors against Chromobacterium violaceum CV026, from Streptomyces sp. TOHO-Y209 and TOHO-O348 被引量:1
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作者 Kazuhiro Ooka Atsushi Fukumoto +4 位作者 Tomoe Yamanaka Kanako Shimada Ryo Ishihara Yojiro Anzai Fumio Kato 《Open Journal of Medicinal Chemistry》 2013年第4期93-99,共7页
Piericidin A1, 3’-rhamnopiericidin A1, and a novel compound piericidin E, a new quorum-sensing (QS) inhibitor against Chromobacterium violaceum CV026, were isolated from the culture broth of Streptomyces sp. QS is we... Piericidin A1, 3’-rhamnopiericidin A1, and a novel compound piericidin E, a new quorum-sensing (QS) inhibitor against Chromobacterium violaceum CV026, were isolated from the culture broth of Streptomyces sp. QS is well known as a microbial signaling system and controls certain types of gene expression resulting in bioluminescence, biofilm formation, swarming motility, antibiotic biosynthesis, and virulence factor production. C. violaceum CV026 is commonly used to determine qualitative and quantitative QS activity. The structures of piericidin derivatives were characterized, and their QS activities were determined. 展开更多
关键词 Piericidin A1 3’-Rhamnopiericidin A1 Piericidin E quorum-sensing INHIBITOR CHROMOBACTERIUM violaceum CV026 N-Acylhomoserinlactone
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