产甲烷古菌中CRISPR簇的研究

【目的】通过对51个产甲烷古菌基因组中成簇的规律间隔短回文重复序列(Clustered regularly interspaced short palindromic repeats,CRISPR)的组成和来源进行研究,推测产甲烷古菌与环境中其他微生物的物质交换和相互作用,在基因组水平上阐述产甲烷古菌之间的遗传差异。【方法】利用CRISPRdb和CRISPRFinder,找出产甲烷古菌基因组中所有潜在的CRISPR簇。对CRISPR簇的基本组成部分进行分析:利用BLASTCLUST对重复序列(Repeat)进行分类;分别将间隔序列(Spacer)与Refseq病毒基因组、Refseq质粒基因组和Refseq产甲烷古菌基因组进行比对,从而获得间隔序列的物种来源和功能信息的注释。【结果】在51个产甲烷古菌中共找到了196个CRISPR簇,这些CRISPR簇中包含了总共4 355条间隔序列。在这些产甲烷古菌中,CRISPR簇的分布是不均匀的,且每个物种的间隔序列数量与其CRISPR簇数量是不成正比的。在对重复序列进行分类之后,发现Mclu1是分布最广且最具代表性的一类重复序列。在4 355条间隔序列中有388条具有物种注释信息,266条具有功能注释信息。从CRISPR簇间隔序列的来源来看,产甲烷古菌曾受到来自Poxiviridae、Siphoviridae以及Myoviridae属病毒的攻击,并且产甲烷古菌之间存在比较广泛的遗传物质交换。【结论】产甲烷古菌基因组中的CRISPR簇在组成和来源上存在较大的差异,这些差异与它们的生存环境有较大的关系。从CRISPR簇的角度阐述了产甲烷古菌之间基因组序列的差异。     

Complete-fosmid and fosmid-end sequences reveal frequent horizontal gene transfers in marine uncultured planktonic archaea

The extent of horizontal gene transfer (HGT) among marine pelagic prokaryotes and the role that HGT may have played in their adaptation to this particular environment remain open questions. This is partly due to the paucity of cultured species and genomic information for many widespread groups of marine bacteria and archaea. Molecular studies have revealed a large diversity and relative abundance of marine planktonic archaea, in particular of Thaumarchaeota (also known as group I Crenarchaeota) and Euryarchaeota of groups II and III, but only one species (the thaumarchaeote Candidatus Nitrosopumilus maritimus) has been isolated in pure culture so far. Therefore, metagenomics remains the most powerful approach to study these environmental groups. To investigate the impact of HGT in marine archaea, we carried out detailed phylogenetic analyses of all open reading frames of 21 archaeal 16S rRNA gene-containing fosmids and, to extend our analysis to other genomic regions, also of fosmid-end sequences of 12 774 fosmids from three different deep-sea locations (South Atlantic and Adriatic Sea at 1000 m depth, and Ionian Sea at 3000 m depth). We found high HGT rates in both marine planktonic Thaumarchaeota and Euryarchaeota, with remarkable converging values estimated from complete-fosmid and fosmid-end sequence analysis (25 and 21% of the genes, respectively). Most HGTs came from bacterial donors (mainly from Proteobacteria, Firmicutes and Chloroflexi) but also from other archaea and eukaryotes. Phylogenetic analyses showed that in most cases HGTs are shared by several representatives of the studied groups, implying that they are ancient and have been conserved over relatively long evolutionary periods. This, together with the functions carried out by these acquired genes (mostly related to energy metabolism and transport of metabolites across membranes), suggests that HGT has played an important role in the adaptation of these archaea to the cold and nutrient-depleted deep marine environment.     

Molecular identification of methanogenic archaea from sheep in Queensland, Australia reveal more uncultured novel archaea

Molecular diversity of rumen methanogens in sheep in Queensland, Australia was investigated using 16S rRNA gene libraries prepared from pooled rumen contents from nine merino sheep. A total of 78 clones were identified revealing 26 different sequences. Of these 26 sequences, eight sequences (15 clones) were 95-100% similar to cultivated methanogens belonging to the orders Methanobacteriales and Methanomicrobiales, and the remaining 18 phylotypes (63 clones) were 72-75% similar to Thermoplasma acidophilum and Thermoplasma volcanium. These unique sequences clustered within a distinct and strongly supported (100% bootstrap support) phylogenetic group, exclusively composed of sequences from uncharacterized archaea from very diverse anaerobic environments. Members of this unique group that were previously considered atypical for the rumen environment were the predominant clones.     

Synthetic circuits reveal how mechanisms of gene regulatory networks constrain evolution

Phenotypic variation is the raw material of adaptive Darwinian evolution. The phenotypic variation found in organismal development is biased towards certain phenotypes, but the molecular mechanisms behind such biases are still poorly understood. Gene regulatory networks have been proposed as one cause of constrained phenotypic variation. However, most pertinent evidence is theoretical rather than experimental. Here, we study evolutionary biases in two synthetic gene regulatory circuits expressed in Escherichia coli that produce a gene expression stripe—a pivotal pattern in embryonic development. The two parental circuits produce the same phenotype, but create it through different regulatory mechanisms. We show that mutations cause distinct novel phenotypes in the two networks and use a combination of experimental measurements, mathematical modelling and DNA sequencing to understand why mutations bring forth only some but not other novel gene expression phenotypes. Our results reveal that the regulatory mechanisms of networks restrict the possible phenotypic variation upon mutation. Consequently, seemingly equivalent networks can indeed be distinct in how they constrain the outcome of further evolution.     

CRISPR screens in physiologic medium reveal conditionally essential genes in human cells

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Diversity, activity, and evolution of CRISPR loci in Streptococcus thermophilus

Clustered regularly interspaced short palindromic repeats (CRISPR) are hypervariable loci widely distributed in prokaryotes that provide acquired immunity against foreign genetic elements. Here, we characterize a novel Streptococcus thermophilus locus, CRISPR3, and experimentally demonstrate its ability to integrate novel spacers in response to bacteriophage. Also, we analyze CRISPR diversity and activity across three distinct CRISPR loci in several S. thermophilus strains. We show that both CRISPR repeats and cas genes are locus specific and functionally coupled. A total of 124 strains were studied, and 109 unique spacer arrangements were observed across the three CRISPR loci. Overall, 3,626 spacers were analyzed, including 2,829 for CRISPR1 (782 unique), 173 for CRISPR2 (16 unique), and 624 for CRISPR3 (154 unique). Sequence analysis of the spacers revealed homology and identity to phage sequences (77%), plasmid sequences (16%), and S. thermophilus chromosomal sequences (7%). Polymorphisms were observed for the CRISPR repeats, CRISPR spacers, cas genes, CRISPR motif, locus architecture, and specific sequence content. Interestingly, CRISPR loci evolved both via polarized addition of novel spacers after exposure to foreign genetic elements and via internal deletion of spacers. We hypothesize that the level of diversity is correlated with relative CRISPR activity and propose that the activity is highest for CRISPR1, followed by CRISPR3, while CRISPR2 may be degenerate. Globally, the dynamic nature of CRISPR loci might prove valuable for typing and comparative analyses of strains and microbial populations. Also, CRISPRs provide critical insights into the relationships between prokaryotes and their environments, notably the coevolution of host and viral genomes.     

Comparative analysis of CRISPR loci in different Listeria monocytogenes lineages

Listeria monocytogenes, an important food-borne pathogen, causes high mortality rate of listeriosis. Pan-genomic comparisons revealed the species genome of L. monocytogenes is highly stable but not completely clonal. The population structure of this species displays at least four evolutionary lineages (I–IV). Isolates of different lineages displayed distinct genetic, phenotypic and ecologic characteristics, which appear to affect their ability to be transmitted through foods and to cause human disease, as well as their ability to thrive in markedly phage-rich environments. CRISPR (clustered regularly interspaced short palindrome repeats), a recently described adaptive immunity system, not only confers defense against invading elements derived from bacteriophages or plasmids in many bacteria and archaeal, but also displays strains-level variations in almost any given endowed species. This work was aimed to investigate CRISPR diversity in L. monocytogenes strains of different lineages and estimated the potential practicability of the CRISPR-based approach to resolve this species’ biodiversity. Only a third of strains contained all three CRISPR loci (here defined as LMa, LMb and LMc) at same time. Combined the strain-level variations in presence/absence of each CRISPR locus and its relative size and spacer arrangements, a total of 29 CRISPR genotypes and 11 groups were defined within a collection of 128 strains covering all serotypes. The CRISPR-based approach showed powerful ability to subtype the more commonly food-borne isolates of serotype 1/2a (lineage II) and serotypes 1/2b (lineage I), but limited by the absence of typical CRISPR structure in many lineage I isolates. Strikingly, we found a long associated cas1 gene as well as two self-targeting LMb spacers accidently homologous with endogenous genes in a fraction of serotype 1/2a isolations, demonstrated that CRISPR I B system might involve in bacterial physiology besides antiviral immunity.     

UV-inducible DNA exchange in hyperthermophilic archaea mediated by type IV pili

Archaea, like bacteria and eukaryotes, contain proteins involved in various mechanisms of DNA repair, highlighting the importance of these processes for all forms of life. Species of the order Sulfolobales of hyperthermophilic crenarchaeota are equipped with a strongly UV-inducible type IV pilus system that promotes cellular aggregation. Here we demonstrate by fluorescence in situ hybridization that cellular aggregates are formed based on a species-specific recognition process and that UV-induced cellular aggregation mediates chromosomal marker exchange with high frequency. Recombination rates exceeded those of uninduced cultures by up to three orders of magnitude. Knockout strains of Sulfolobus acidocaldarius incapable of pilus production could not self-aggregate, but were partners in mating experiments with wild-type strains indicating that one cellular partner can mediate the DNA transfer. Since pilus knockout strains showed decreased survival upon UV treatment, we conclude that the UV-inducible DNA transfer process and subsequent homologous recombination represents an important mechanism to maintain chromosome integrity in Sulfolobus. It might also contribute substantially to the frequent chromosomal DNA exchange and horizontal gene transfer in these archaea in their natural habitat.     

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。     

Corynebacterium diphtheriae spoligotyping based on combined use of two CRISPR loci

A large diphtheria epidemic in the 1990s in Russia and neighboring countries underlined the importance of permanent surveillance of the circulating and emerging clones of Corynebacterium diphtheriae, and hence there is a need for highly discriminatory, simple and portable typing methods. In the complete genome sequence of C. diphtheriae strain NCTC13129, we previously identified in silico two clustered, regularly interspaced short palindromic repeat (CRISPR) loci, and developed a macroarray-based method to study polymorphism in the larger DRB locus. We named this method spoligotyping (spacer oligonucleotide typing), analogously to a similar method of Mycobacterium tuberculosis genotyping. Here, we included in the analysis novel spacers of the other CRISPR locus in C. diphtheriae (DRA); both loci were simultaneously co-amplified and co-hybridized against the membrane with 27 different immobilized spacer-probes. The use of additional DRA spacers improved strain differentiation and discriminated within large DRB clusters. The 156 Russian strains of the epidemic clone were subdivided into 45 combined spoligotypes compared to 35 DRB-spoligotypes and only two ribotypes ('Sankt-Peterburg' and 'Rossija'). The spoligotyping method allows digital presentation of profiles and therefore it is perfectly suitable for interlaboratory comparison and database management; it may become a powerful tool for epidemiological monitoring and phylogenetic analysis of C. diphtheriae.     

沙门氏菌CRISPR位点的结构特征比较

成簇规律间隔的短回文重复序列(Clustered regularly interspaced short palindromic repeats,CRISPR),是存在于多数细菌和古菌中的遗传结构,能够有效防御外源DNA的入侵(质粒、噬菌体等),进而防御外源基因的水平转移。【目的】本研究以沙门氏菌属中常见的鸡伤寒沙门氏菌(Salmonella gallinarum)、鼠伤寒沙门氏菌(Salmonella typhimurium)、猪霍乱沙门氏菌(Salmonella choleraesuis)以及肠炎沙门氏菌(salmonella enteritidis)等30个菌株为研究对象。探索CRISPR位点在不同沙门氏菌种中的结构差异。【方法】通过生物信息学的方法比较间隔序列与插入序列的同源性以及CRISPR位点与质粒数量关系。【结果】30株沙门氏菌中均存在CRISPR结构,包括CRISPR位点61个以及可疑位点12个。重复序列和cas1基因均不能作为这4类细菌的分类依据。【结论】虽然我们发现CRISPR位点数量与间隔区数量和质粒数量之间均不存在统计学关系,但间隔序列整合子、耐药基因等移动遗传原件具有一定的同源性,说明沙门氏菌在进化过程中不断受外源基因的侵袭。     

Genome copy numbers and gene conversion in methanogenic archaea

Previous studies revealed that one species of methanogenic archaea, Methanocaldococcus jannaschii, is polyploid, while a second species, Methanothermobacter thermoautotrophicus, is diploid. To further investigate the distribution of ploidy in methanogenic archaea, species of two additional genera-Methanosarcina acetivorans and Methanococcus maripaludis-were investigated. M. acetivorans was found to be polyploid during fast growth (t(D) = 6 h; 17 genome copies) and oligoploid during slow growth (doubling time = 49 h; 3 genome copies). M. maripaludis has the highest ploidy level found for any archaeal species, with up to 55 genome copies in exponential phase and ca. 30 in stationary phase. A compilation of archaeal species with quantified ploidy levels reveals a clear dichotomy between Euryarchaeota and Crenarchaeota: none of seven euryarchaeal species of six genera is monoploid (haploid), while, in contrast, all six crenarchaeal species of four genera are monoploid, indicating significant genetic differences between these two kingdoms. Polyploidy in asexual species should lead to accumulation of inactivating mutations until the number of intact chromosomes per cell drops to zero (called "Muller's ratchet"). A mechanism to equalize the genome copies, such as gene conversion, would counteract this phenomenon. Making use of a previously constructed heterozygous mutant strain of the polyploid M. maripaludis we could show that in the absence of selection very fast equalization of genomes in M. maripaludis took place probably via a gene conversion mechanism. In addition, it was shown that the velocity of this phenomenon is inversely correlated to the strength of selection.