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WD-重复蛋白 被引量:10
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作者 段红英 丁笑生 孙富丛 《中国生物化学与分子生物学报》 CAS CSCD 北大核心 2007年第2期101-105,共5页
WD基元又称Trp-ASP或WD40,由40个左右的氨基酸残基组成,具有保守的GH和WD序列.WD基元存在于很多具有调控功能的蛋白质中,介导蛋白质之间的相互作用,在信号转导、蛋白运输、染色体修饰、转录或RNA加工等过程中具有重要作用.WD重复蛋白(WD... WD基元又称Trp-ASP或WD40,由40个左右的氨基酸残基组成,具有保守的GH和WD序列.WD基元存在于很多具有调控功能的蛋白质中,介导蛋白质之间的相互作用,在信号转导、蛋白运输、染色体修饰、转录或RNA加工等过程中具有重要作用.WD重复蛋白(WD-repeat protein)是含有多个保守的WD基元的蛋白质.近年发现,WD-repeat基因突变与人的几种疾病相关.本文对真核生物WD-重复蛋白的研究进展进行了综述,阐明了WD-重复蛋白的β-propeller结构特征及其作用机制,并对WD-重复蛋白的未来研究方向进行展望. 展开更多
关键词 WD基元 真核生物 WD-重复蛋白 β-propeller结构
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A novel microcosm to identify inherently competitive microorganisms with the ability to mineralize phytate in solum
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作者 Sabrina M.Pittroff Stefan Olsson +3 位作者 Ashlea Doolette Ralf Greiner Alan E.Richardson Mette Haubjerg Nicolaisen 《Soil Ecology Letters》 CAS 2021年第4期367-382,共16页
Fertilizer phosphorus(P)is a finite resource,necessitating the development of innovative solutions for P fertilizer efficiency in agricultural systems.Myo-inositol hexakisphosphate(phytate)constitutes the majority of ... Fertilizer phosphorus(P)is a finite resource,necessitating the development of innovative solutions for P fertilizer efficiency in agricultural systems.Myo-inositol hexakisphosphate(phytate)constitutes the majority of identified organic P in many soil types and is poorly available to plants.Incorporating phytase-producing biofertilizers into soil presents a viable and environmentally acceptable way of utilizing P from phytate,while reducing the need for mineral P application.A deeper understanding of the microbial ecology in relation to degradation of phytate under natural soil conditions is however needed to obtain successful biofertilizer candidates able to compete in complex soil environments.Here we present the development of a microcosm for studying microbial communities able to colonize and utilize Ca-phytate hotspots in solum.Our results provide evidence that the recruited microbial population mineralizes Ca-phytate.Furthermore,quantification of bacterial genes associated with organic P cycling in alkaline soils indicated that the phosphatases PhoX and PhoD may play a larger role in phytate mineralization in soil than previously recognized.Amplicon sequencing and BioLog®catabolism studies show that hotspots containing Ca-phytate,recruited a different set of microorganisms when compared to those containing an addition of C source alone,with the genus Streptomyces specifically enriched.We propose that Streptomyces represents an hitherto unexplored resource as P biofertilizer with competitive advantage for utilizing CaPhy in an inherently competitive soil environment.We further conclude that the use of our newly designed microcosm presents an innovative approach for isolating soil microorganisms with the potential to degrade precipitated phytate in solum. 展开更多
关键词 Myo-inositol hexakisphosphate(phytate) Soil microcosm Soil microbial ecology BIOFERTILIZERS Alkaline phosphatase β-propeller phytase(BPP)
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