CRISPR在食源性致病菌进化分析、检测分型及毒力耐药调控中的应用进展

规律成簇间隔的短回文重复序列 (Clustered regularly interspaced short palindromic repeats,CRISPR) 与其相关蛋白基因系统可通过限制基因的水平转移而有效防御噬菌体等外源基因元件的入侵,不同细菌之间的CRISPR结构有所差异。基于CRISPR系统的差异性,文中对近几年CRISPR在食源性致病菌进化分析、检测与分型、毒力与耐药中的应用研究进行概述,并对基于CRISPR序列特点开发的细菌检测分型方法以及CRISPR与食源性致病菌的毒力、耐药性之间的相关性进行重点总结分析。此外,文中探讨了CRISPR在进化分析、检测与分型、毒力与耐药应用中的不足,提出将CRISPR分型方法标准化、完善与扩充致病菌CRISPR数据库、进一步探究噬菌体与细菌之间的共进化关系等建议,为进一步探索CRISPR功能提供参考。     

细菌比较基因组学和进化基因组学

通过比较不同细菌基因组间差异性与相似性,进而深入研究其分子机理,最终与其表型特征联系起来,是为比较基因组学;不同细菌经过长期进化,其基因组在结构与功能上存在着明显的分化,并构成表型进化的遗传基础,大量细菌全基因组测序的完成,细菌进化基因组学应运而生;以比较基因组学为研究手段,细菌进化基因组学可从基因组水平深入认识物种分化、生境适应、毒力进化、耐药性产生蔓延等表型进化过程。     

病原菌毒力岛研究进展

毒力岛作为基因组岛的一种亚类,是细菌染色体上具有特定结构和功能特征的可移动基因大片段,经基因水平转移（转导、接合或转化）获得,可使细菌基因组进化在短期内发生“量的飞跃”,直接或间接增强细菌的生态适应性,与病原菌的致病性密切相关。毒力岛存在于多种动植物病原细菌中,对于细菌的毒力变异、遗传进化甚至新病原亚种形成有重要意义。简要综述了病原菌毒力岛的研究进展,介绍了毒力岛的结构、功能特征及其在病原菌进化中作用。     

细菌蛋白酶体及蛋白酶体抑制剂研究进展

蛋白酶体在真核生物、古菌和部分细菌(主要是放线菌)的胞内蛋白质降解中起着至关重要的作用。虽然三域生物蛋白酶体的结构相似,但细菌蛋白酶体在组装、调节、生理功能等方面与真核生物和古菌都截然不同。研究细菌蛋白酶体不仅有助于认识其起源和进化历程,也将为发掘蛋白酶体抑制剂(proteasome inhibitor, PI)这类具有广阔药用前景的化合物提供指导。本文综述了细菌蛋白酶体的结构、功能和进化假说,并概括了细菌蛋白酶体抑制剂的最新研究进展,期望为相关研究提供参考。     

氨酰-tRNA合成酶的进化差异

大量研究显示,细菌与真核生物中的许多氨酰-tRNA合成酶(aaRS)在一些细菌与真核生物中的基因进化机制与模式、氨酰化途径和结构与功能的进化模式等方面往往有着明显的差异。通过对这些差异的深入研究,对于理解蛋白质的结构与功能的进化将是非常有帮助的。虽然造成这些差异的机制目前仍不清楚,但是,所有的这些差异似乎提示,在细菌与真核生物的一些基本生命活动过程中的某些方面,可能还存在着目前尚未被人们所认识到的较大差异。     

细菌基因组同源重组:量化与鉴定

同源重组(Homologous recombination)是塑造细菌群体多样性的重要原因之一。遗传物质通过同源重组在细菌不同种系间进行水平转移,打乱了克隆繁殖形成的竖向系统发育结构,从而为系统发育重建和种群结构判定带来困难。本文讨论了同源重组对系统发育分析和进化研究的影响,从实际应用的角度对量化重组程度和鉴定重组事件的常用软件及方法进行了综述,归纳了各软件工具和模型方法的优缺点,旨在对细菌重组分析和种群进化研究有所借鉴。     

细菌-噬菌体对抗性共进化研究进展 *

共进化现象在自然界中普遍存在。细菌和细菌的天敌噬菌体之间的对抗是一场持久战,细菌-噬菌体系统是研究共进化的模式材料。目前关于细菌-噬菌体对抗性共进化的机制有两种公认的模型,即GFG模型和MA模型,对应于两种模式,即ARD模式和FSD模式;主要采用Time-Shift Assays方法测定细菌-噬菌体的对抗性共进化动力学模式。长尾噬菌体是有尾噬菌体中最大的家族。目前关于细菌-噬菌体系统共进化的研究主要集中在短尾和肌尾噬菌体与其宿主之间,而细菌-长尾噬菌体共进化的研究报道较少。     

细菌“化石”

细菌“化石”叶辉（江苏省南通师专生物系２２６００７）长期以来，研究细菌进化比起研究高等动植物进化要落后得多。这是由于细菌个体微小，形态简单，结构变化有限，又无高等生物那样的比较解剖学、比较胚胎学、化石等证据，加上没有适当的方法、手段来研究细菌间是否具...     

产甲烷细菌的极性脂质结构

古细菌的极性脂质是以植烷醇结构为特征的,它有别于真细菌和真核生物的正常脂质。构成产甲烷细菌极性脂质的基本骨架有四种:阿克醇、卡克醇、马克醇和海克醇。本文阐述了各种产甲烷细菌极性脂质成分的结构;从这些脂质成分的结构特点上看,或许极性脂质可作为系统分类和进化的标志。     

脑膜炎奈瑟氏菌的抗原分析及分型研究进展

自从十九世纪八十年代从流行性脑脊髓膜炎患者的脑脊髓液中分离出脑膜炎奈瑟氏菌,至今已近百年了。其抗原结构和分型的研究有了较大的进展,促进了对该病的防治工作。荚膜群特异性多糖,外膜蛋白质及脂多糖的抗原分析和分型,以及细菌素和杀菌力分型的研究,正在细菌检验工作中应用和深入研究。用凝胶过     

CRISPR相关生物信息学基础

成簇规律间隔短回文序列（clustered regularly interspaced short palindromic repeats,CRISPR）是细菌和古细菌在不断进化的过程中获得的一种适应性免疫防御机制,该结构与一些功能相关的蛋白质（CRISPR associated, Cas）合称CRISPR Cas系统。由于其致突变效率高、操作简单及成本较低的特点,近年来对CRISPR/Cas系统的研究获得越来越广泛的关注。该系统迅速在各领域中得到广泛应用,被认为是一种具有广阔应用前景的基因组定点改造分子工具。但是,该系统存在脱靶效应、测序数据分析等挑战。为此,许多研究者开发出各种软件解决以上问题。本文着重从生物信息学的角度出发,对CRISPR/Cas系统中sgRNA的设计软件、CRISPR全基因组筛选功能基因的测序数据分析软件以及CRISPR在生物信息学中的运用作一系统综述。     

Rapidly evolving CRISPRs implicated in acquired resistance of microorganisms to viruses

Recent experimental evidence has demonstrated that bacteria acquire resistance to viruses by incorporation of short transcribed nucleotide sequences into regions of clustered regularly interspaced short palindromic repeats (CRISPR). We have analysed community genomic data from acidophilic microbial biofilms and discovered that evolution of the CRISPR regions in two distinct Leptospirillum group II bacteria occurs fast enough to promote individuality in otherwise nearly clonal populations. Comparative genomics strongly indicates very recent lateral transfer of the CRISPR locus between these populations, followed by significant loss of spacer sequences and locus expansion by unidirectional heterogeneous addition of new spacer sequences. Diversification of the CRISPR region is inferred to be a population-level response to the rapidly changing selective pressure of phage predation. Results reinforce the importance of phage–host interactions in shaping microbial ecology and evolution over very short time scales.     

Diversity in CRISPR‐based immunity protects susceptible genotypes by restricting phage spread and evolution

Diversity in host resistance often associates with reduced pathogen spread. This may result from ecological and evolutionary processes, likely with feedback between them. Theory and experiments on bacteria–phage interactions have shown that genetic diversity of the bacterial adaptive immune system can limit phage evolution to overcome resistance. Using the CRISPR–Cas bacterial immune system and lytic phage, we engineered a host–pathogen system where each bacterial host genotype could be infected by only one phage genotype. With this model system, we explored how CRISPR diversity impacts the spread of phage when they can overcome a resistance allele, how immune diversity affects the evolution of the phage to increase its host range and if there was feedback between these processes. We show that increasing CRISPR diversity benefits susceptible bacteria via a dilution effect, which limits the spread of the phage. We suggest that this ecological effect impacts the evolution of novel phage genotypes, which then feeds back into phage population dynamics.     

醋酸菌中CRISPR位点的比较基因组学与进化分析

CRISPR (Clustered regularly interspaced short palindromic repeats)是近几年发现的一种广泛存在于细菌和古菌中,能够应对外源DNA干扰(噬菌体、病毒、质粒等),并提供免疫机制的重复序列结构。CRISPR系统通常由同向重复序列、前导序列、间隔序列和CRISPR相关蛋白组成。本研究以醋酸发酵中常见3个属醋杆菌属(Acetobacter)、葡糖醋杆菌属(Gluconacetobacter)和葡糖杆菌属(Gluconobacter)的48个菌株为研究对象,通过其基因组上CRISPR相关基因序列的生物信息学分析,探索CRISPR位点在醋酸菌中的多态性及其进化模式。结果表明48株醋酸菌中有32株存在CRISPR结构,大部分CRISPR-Cas结构属于type I-E和type I-C类型。除了葡糖杆菌属外,葡糖醋杆菌属和醋杆菌属中的部分菌株含有II类的CRISPR-Cas系统结构(CRISPR-Cas9)。来自不同属菌株的CRISPR结构中重复序列具有较强的保守性,而且部分菌株CRISPR结构中的前导序列具有保守的motif (与基因的转录调控有关)及启动子序列。进化树分析表明cas1适合用于醋酸菌株的分类,而不同菌株间cas1基因的进化与重复序列的保守性相关,预示它们可能受相似的功能选择压力。此外,间隔序列的数量与噬菌体数量及插入序列(Insertion sequence, IS)数量有正相关的趋势,说明醋酸菌在进化过程中可能正不断受新的外源DNA入侵。醋酸菌中CRISPR结构位点的分析,为进一步研究不同醋酸菌株对醋酸胁迫耐受性差异及其基因组稳定性的分子机制奠定了基础。     

寡氧单胞菌中CRISPR位点的分析

对寡氧单胞菌基因组中的CRISPR位点进行生物信息学分析。CRISPRdb数据库中公布的和NCBI上下载的共26株寡氧单胞菌的基因组序列,分析其CRISPR位点的分布情况、重复序列、间隔序列以及间隔序列和噬菌体序列数量之间的关系。共发现15个确定的CRISPR结构和132个可疑的CRISPR,不同菌株CRISPR结构中的重复序列具有较强的保守性。间隔序列的靶向基因主要来自细菌的基因组,说明寡氧单胞菌CRISPR的的进化与其他细菌基因有关。此外,间隔序列与前噬菌体数量之间的负相关关系,说明CRISPR能阻止噬菌体的入侵。寡氧单胞菌CRISPR位点的分析为进一步研究耐药性及基因组稳定性奠定了基础。     

Nasty viruses, costly plasmids, population dynamics, and the conditions for establishing and maintaining CRISPR-mediated adaptive immunity in bacteria

Clustered, Regularly Interspaced Short Palindromic Repeats (CRISPR) abound in the genomes of almost all archaebacteria and nearly half the eubacteria sequenced. Through a genetic interference mechanism, bacteria with CRISPR regions carrying copies of the DNA of previously encountered phage and plasmids abort the replication of phage and plasmids with these sequences. Thus it would seem that protection against infecting phage and plasmids is the selection pressure responsible for establishing and maintaining CRISPR in bacterial populations. But is it? To address this question and provide a framework and hypotheses for the experimental study of the ecology and evolution of CRISPR, I use mathematical models of the population dynamics of CRISPR-encoding bacteria with lytic phage and conjugative plasmids. The results of the numerical (computer simulation) analysis of the properties of these models with parameters in the ranges estimated for Escherichia coli and its phage and conjugative plasmids indicate: (1) In the presence of lytic phage there are broad conditions where bacteria with CRISPR-mediated immunity will have an advantage in competition with non-CRISPR bacteria with otherwise higher Malthusian fitness. (2) These conditions for the existence of CRISPR are narrower when there is envelope resistance to the phage. (3) While there are situations where CRISPR-mediated immunity can provide bacteria an advantage in competition with higher Malthusian fitness bacteria bearing deleterious conjugative plasmids, the conditions for this to obtain are relatively narrow and the intensity of selection favoring CRISPR weak. The parameters of these models can be independently estimated, the assumption behind their construction validated, and the hypotheses generated from the analysis of their properties tested in experimental populations of bacteria with lytic phage and conjugative plasmids. I suggest protocols for estimating these parameters and outline the design of experiments to evaluate the validity of these models and test these hypotheses.     

1型CRISPR位点间区序列分析在嗜热链球菌菌株分型中的应用

为了建立适用于嗜热链球菌菌株资源多样性调查的菌株分型方法,尝试将1型CRISPR位点间区序列分析用于嗜热链球菌的菌株分型,并与常用ERIC-PCR指纹图谱方法进行了比较。结果表明,1型CRISPR位点间区序列分析可以把30株从三个不同样品中分离的嗜热链球菌分成三种差异明显的类型:不同类型菌株之间没有相同的间区序列;而同一类型菌株之间,间区序列的组成和排列则基本一致,并且上述分型的结果与用ERIC-PCR指纹图谱技术获得的结果完全一致。因此,1型CRISPR位点间区序列分析是嗜热链球菌分型鉴定的可靠方法,并适用于大量菌株的分型鉴定和多样性调查。     

Diversity, evolution, and functionality of clustered regularly interspaced short palindromic repeat (CRISPR) regions in the fire blight pathogen Erwinia amylovora

The clustered regularly interspaced short palindromic repeat (CRISPR)/Cas system confers acquired heritable immunity against mobile nucleic acid elements in prokaryotes, limiting phage infection and horizontal gene transfer of plasmids. In CRISPR arrays, characteristic repeats are interspersed with similarly sized nonrepetitive spacers derived from transmissible genetic elements and acquired when the cell is challenged with foreign DNA. New spacers are added sequentially and the number and type of CRISPR units can differ among strains, providing a record of phage/plasmid exposure within a species and giving a valuable typing tool. The aim of this work was to investigate CRISPR diversity in the highly homogeneous species Erwinia amylovora, the causal agent of fire blight. A total of 18 CRISPR genotypes were defined within a collection of 37 cosmopolitan strains. Strains from Spiraeoideae plants clustered in three major groups: groups II and III were composed exclusively of bacteria originating from the United States, whereas group I generally contained strains of more recent dissemination obtained in Europe, New Zealand, and the Middle East. Strains from Rosoideae and Indian hawthorn (Rhaphiolepis indica) clustered separately and displayed a higher intrinsic diversity than that of isolates from Spiraeoideae plants. Reciprocal exclusion was generally observed between plasmid content and cognate spacer sequences, supporting the role of the CRISPR/Cas system in protecting against foreign DNA elements. However, in several group III strains, retention of plasmid pEU30 is inconsistent with a functional CRISPR/Cas system.     

Ultrafast evolution and loss of CRISPRs following a host shift in a novel wildlife pathogen, Mycoplasma gallisepticum

Measureable rates of genome evolution are well documented in human pathogens but are less well understood in bacterial pathogens in the wild, particularly during and after host switches. Mycoplasma gallisepticum (MG) is a pathogenic bacterium that has evolved predominantly in poultry and recently jumped to wild house finches (Carpodacus mexicanus), a common North American songbird. For the first time we characterize the genome and measure rates of genome evolution in House Finch isolates of MG, as well as in poultry outgroups. Using whole-genome sequences of 12 House Finch isolates across a 13-year serial sample and an additional four newly sequenced poultry strains, we estimate a nucleotide diversity in House Finch isolates of only ～2% of ancestral poultry strains and a nucleotide substitution rate of 0.8-1.2×10(-5) per site per year both in poultry and in House Finches, an exceptionally fast rate rivaling some of the highest estimates reported thus far for bacteria. We also found high diversity and complete turnover of CRISPR arrays in poultry MG strains prior to the switch to the House Finch host, but after the invasion of House Finches there is progressive loss of CRISPR repeat diversity, and recruitment of novel CRISPR repeats ceases. Recent (2007) House Finch MG strains retain only ～50% of the CRISPR repertoire founding (1994-95) strains and have lost the CRISPR-associated genes required for CRISPR function. Our results suggest that genome evolution in bacterial pathogens of wild birds can be extremely rapid and in this case is accompanied by apparent functional loss of CRISPRs.