Development of a Functional Genomics Platform for Sinorhizobium meliloti: Construction of an ORFeome

The nitrogen-fixing, symbiotic bacterium Sinorhizobium meliloti reduces molecular dinitrogen to ammonia in a specific symbiotic context, supporting the nitrogen requirements of various forage legumes, including alfalfa. Determining the DNA sequence of the S. meliloti genome was an important step in plant-microbe interaction research, adding to the considerable information already available about this bacterium by suggesting possible functions for many of the >6,200 annotated open reading frames (ORFs). However, the predictive power of bioinformatic analysis is limited, and putting the role of these genes into a biological context will require more definitive functional approaches. We present here a strategy for genetic analysis of S. meliloti on a genomic scale and report the successful implementation of the first step of this strategy by constructing a set of plasmids representing 100% of the 6,317 annotated ORFs cloned into a mobilizable plasmid by using efficient PCR and recombination protocols. By using integrase recombination to insert these ORFs into other plasmids in vitro or in vivo (B. L. House et al., Appl. Environ. Microbiol. 70:2806-2815, 2004), this ORFeome can be used to generate various specialized genetic materials for functional analysis of S. meliloti, such as operon fusions, mutants, and protein expression plasmids. The strategy can be generalized to many other genome projects, and the S. meliloti clones should be useful for investigators wanting an accessible source of cloned genes encoding specific enzymes.     

Identification of Cold Shock Gene Loci in Sinorhizobium meliloti by Using a luxAB Reporter Transposon

Using a luxAB reporter transposon, seven mutants of Sinorhizobium meliloti were identified as containing insertions in four cold shock loci. LuxAB activity was strongly induced (25- to 160-fold) after a temperature shift from 30 to 15°C. The transposon and flanking host DNA from each mutant was cloned, and the nucleic acid sequence of the insertion site was determined. Unexpectedly, five of the seven luxAB mutants contained transposon insertions in the 16S and 23S rRNA genes of two of the three rrn operons of S. meliloti. Directed insertion of luxAB genes into each of the three rrn operons revealed that all three operons were similarly affected by cold shock. Two other insertions were found to be located downstream of a homolog of the major Escherichia coli cold shock gene, cspA. Although the cold shock loci were highly induced in response to a shift to low temperature, none of the insertions resulted in a statistically significant decrease in growth rate at 15°C.     

苜蓿中华根瘤菌matB基因的克隆及其功能的研究

通过同源性分析,发现苜蓿中华根瘤茵（Sinorhizobium meliloti）菌株Rm1021中matB基因与三叶草生物型豌豆根瘤茵（Rhizobium leguminosarum by．trifolii）和慢生型大豆根瘤茵（Bradyrhizobium japonicum USDA110）中编码丙二酸单酰辅酶A合成酶（malonyl-CoA synthetase）基因在氨基酸水平上分别达到了75％和67％一致性,具有高度同源性。因此,从Rml021中克隆出matB基因,并在大肠埃希菌（Escherichiacoli）中进行体外诱导表达和纯化。纯化的MatB蛋白具有丙二酸单酰辅酶A合成酶的活性,测定的Km值是710μmol,Vmax是0．209μmol／min／mg。     

Directed Construction and Analysis of a Sinorhizobium meliloti pSymA Deletion Mutant Library

Resources from the Sinorhizobium meliloti Rm1021 open reading frame (ORF) plasmid libraries were used in a medium-throughput method to construct a set of 50 overlapping deletion mutants covering all of the Rm1021 pSymA megaplasmid except the replicon region. Each resulting pSymA derivative carried a defined deletion of approximately 25 ORFs. Various phenotypes, including cytochrome c respiration activity, the ability of the mutants to grow on various carbon and nitrogen sources, and the symbiotic effectiveness of the mutants with alfalfa, were analyzed. This approach allowed us to systematically evaluate the potential impact of regions of Rm1021 pSymA for their free-living and symbiotic phenotypes.     

Construction of a Large Signature-Tagged Mini-Tn5 Transposon Library and Its Application to Mutagenesis of Sinorhizobium meliloti

Sinorhizobium meliloti genome sequence determination has provided the basis for different approaches of functional genomics for this symbiotic nitrogen-fixing alpha-proteobacterium. One of these approaches is gene disruption with subsequent analysis of mutant phenotypes. This method is efficient for single genes; however, it is laborious and time-consuming if it is used on a large scale. Here, we used a signature-tagged transposon mutagenesis method that allowed analysis of the survival and competitiveness of many mutants in a single experiment. A novel set of signature tags characterized by similar melting temperatures and G+C contents of the tag sequences was developed. The efficiencies of amplification of all tags were expected to be similar. Thus, no preselection of the tags was necessary to create a library of 412 signature-tagged transposons. To achieve high specificity of tag detection, each transposon was bar coded by two signature tags. In order to generate defined, nonredundant sets of signature-tagged S. meliloti mutants for subsequent experiments, 12,000 mutants were constructed, and insertion sites for more than 5,000 mutants were determined. One set consisting of 378 mutants was used in a validation experiment to identify mutants showing altered growth patterns.     

转座子挽救法对苜蓿中华根瘤菌与耐盐有关基因的定位

用含Tn5转座子的质粒pRL1063a诱变苜蓿中华根瘤菌(Sinorhizobium meliloti)042BM,得到盐敏感突变株042BML-2。采用转座子挽救法对Tn5插入位点两边的序列进行克隆与测序,获得了1179bp的转座子插入位点侧翼DNA序列。在GenBank中进行序列同源性和基因定位分析,结果表明：转座子插入在一个功能未知的基因内部,此基因长6270bp。研究证明：该基因与042BM的耐盐性有关,并定名为rtsC。氨基酸疏水性分析表明,在RtsC蛋白的N端有两个跨膜区,该蛋白与细菌趋化性相关蛋白的功能域有同源性。并对RtsC蛋白在苜蓿中华根瘤菌042BM耐盐性中的作用进行了讨论。     

Construction of Signature-tagged Mutant Library in Mesorhizobium loti as a Powerful Tool for Functional Genomics

Rhizobia are nitrogen-fixing soil bacteria that establish endosymbiosis with some leguminous plants. The completion of several rhizobial genome sequences provides opportunities for genome-wide functional studies of the physiological roles of many rhizobial genes. In order to carry out genome-wide phenotypic screenings, we have constructed a large mutant library of the nitrogen-fixing symbiotic bacterium, Mesorhizobium loti, by transposon mutagenesis. Transposon insertion mutants were generated using the signature-tagged mutagenesis (STM) technique and a total of 29 330 independent mutants were obtained. Along with the collection of transposon mutants, we have determined the transposon insertion sites for 7892 clones, and confirmed insertions in 3680 non-redundant M. loti genes (50.5% of the total number of M. loti genes). Transposon insertions were randomly distributed throughout the M. loti genome without any bias toward G+C contents of insertion target sites and transposon plasmids used for the mutagenesis. We also show the utility of STM mutants by examining the specificity of signature tags and test screenings for growth- and nodulation-deficient mutants. This defined mutant library allows for genome-wide forward- and reverse-genetic functional studies of M. loti and will serve as an invaluable resource for researchers to further our understanding of rhizobial biology.Key words: Mesorhizobium loti, signature-tagged mutagenesis, mutant library, reverse genetics     

用于鉴定microRNA靶基因的新型双萤光素酶报告基因系统的构建及应用

目的:构建用于鉴定microRNA靶基因的报告基因系统。方法:在pGL3-Basic载体的luc基因上游插入CMV启动子,下游插入用于克隆靶基因3’UTR的多克隆位点,构建报告基因载体pMIR-luciferase;将pMIR-lu-ciferase载体的luc基因替换成Rluc基因,构建内参载体pMIR-control;将补体因子H(CFH)的3’UTR插入pMIR-luciferase载体的多克隆位点处,构建含有CFH 3’UTR的报告基因载体;用pIRES2-EGFP载体构建microRNA146a真核表达载体;将含有CFH 3’UTR的报告基因载体、microRNA146a真核表达载体及内参载体共转染HepG2细胞,进行报告基因的活性检测。结果:构建了报告基因载体、内参载体和microRNA146a真核表达载体,经酶切和测序鉴定正确;microRNA146a真核表达载体转染细胞72 h后,经荧光显微镜观察确认载体转染及表达;用实时定量PCR检测,microRNA146a的表达水平显著上调(P<0.01);用构建的报告基因系统检测,结果表明microRNA146a显著地抑制了含CFH 3’UTR的报告基因的活性(P<0.05)。结论:构建了一种新型的报告基因载体系统,该系统可用于miRNA靶基因的鉴定。     

Identification of Sinorhizobium meliloti Early Symbiotic Genes by Use of a Positive Functional Screen

The soil bacterium Sinorhizobium meliloti establishes nitrogen-fixing symbiosis with its leguminous host plant, alfalfa, following a series of continuous signal exchanges. The complexity of the changes of alfalfa root structures during symbiosis and the amount of S. meliloti genes with unknown functions raised the possibility that more S. meliloti genes may be required for early stages of the symbiosis. A positive functional screen of the entire S. meliloti genome for symbiotic genes was carried out using a modified in vivo expression technology. A group of genes and putative genes were found to be expressed in early stages of the symbiosis, and 23 of them were alfalfa root exudate inducible. These 23 genes were further separated into two groups based on their responses to apigenin, a known nodulation (nod) gene inducer. The group of six genes not inducible by apigenin included the lsrA gene, which is essential for the symbiosis, and the dgkA gene, which is involved in the synthesis of cyclic β-1,2-glucan required for the S. meliloti-alfalfa symbiosis. In the group of 17 apigenin-inducible genes, most have not been previously characterized in S. meliloti, and none of them belongs to the nod gene family. The identification of this large group of alfalfa root exudate-inducible S. meliloti genes suggests that the interactions in the early stages of the S. meliloti and alfalfa symbiosis could be complex and that further characterization of these genes will lead to a better understanding of the symbiosis.     

Construction of a Tn5-Tagged Mutant Library of Xanthomonas oryzae pv. oryzicola as An Invaluable Resource for Functional Genomics

To genome-widely mine pathogenesis-related genes of Xanthomonas oryzae pv. oryzicola (Xoc), which is the casual agent of bacterial leaf streak resulting in significant yield loss and poor quality in rice, a Tn5 transposon-mediated mutation library was generated. Twenty-five thousand transformants were produced by using Tn5 transposome, appropriately corresponding to 5 × ORF coverage of the genome, and inoculated into rice and tobacco, individually and respectively, for screening candidate virulence genes. Southern blot and thermal asymmetric interlaced polymerase chain reaction analysis of Tn5 insertion sites of randomly selected mutants suggested a random mode of transposition and a saturation library. Characterization of extracellular polysaccharides, extracellular protease activity, and pigment production of individual mutants in the growth media revealed that 11 mutants enhanced in growth, 12 reduced extracellular polysaccharide production, 12 lost extracellular protease activity completely or partially, and 21 were pigment deficient. In planta pathogenicity assays revealed 253 mutants reduced virulence in rice, but kept triggering hypersensitive response in tobacco; 49 lost the ability to elicit HR in tobacco and pathogenicity in rice; and 3 still induced hypersensitive response in tobacco, but lost pathogenicity in rice. The achieved mutant library of Xoc is of high-quality and nearly saturated and candidate virulence mutants provided a strong basis for functional genomics of Xoc.     

The Sinorhizobium meliloti Nutrient-Deprivation-Induced Tyrosine Degradation Gene hmgA Is Controlled by a Novel Member of the arsR Family of Regulatory Genes

The regulation of the nutrient-deprivation-induced Sinorhizobium meliloti homogentisate dioxygenase (hmgA) gene, involved in tyrosine degradation, was examined. hmgA expression was found to be independent of the canonical nitrogen regulation (ntr) system. To identify regulators of hmgA, secondary mutagenesis of an S. meliloti strain harboring a hmgA-luxAB reporter gene fusion (N4) was carried out using transposon Tn1721. Two independent Tn1721 insertions were found to be located in a positive regulatory gene (nitR), encoding a protein sharing amino acid sequence similarity with proteins of the ArsR family of regulators. NitR was found to be a regulator of S. meliloti hmgA expression under nitrogen deprivation conditions, suggesting the presence of a ntr-independent nitrogen deprivation regulatory system. nitR insertion mutations were shown not to affect bacterial growth, nodulation of Medicago sativa (alfalfa) plants, or symbiotic nitrogen fixation under the physiological conditions examined. Further analysis of the nitR locus revealed the presence of open reading frames encoding proteins sharing amino acid sequence similarities with an ATP-binding phosphonate transport protein (PhnN), as well as transmembrane efflux proteins.     

Construction and environmental release of a Sinorhizobium meliloti strain genetically modified to be more competitive for alfalfa nodulation

Highly efficient nitrogen-fixing strains selected in the laboratory often fail to increase legume production in agricultural soils containing indigenous rhizobial populations because they cannot compete against these populations for nodule formation. We have previously demonstrated, with a Sinorhizobium meliloti PutA- mutant strain, that proline dehydrogenase activity is required for colonization and therefore for the nodulation efficiency and competitiveness of S. meliloti on alfalfa roots (J. I. Jiménez-Zurdo, P. van Dillewijn, M. J. Soto, M. R. de Felipe, J. Olivares, and N. Toro, Mol. Plant-Microbe Interact. 8:492-498, 1995). In this work, we investigated whether the putA gene could be used as a means of increasing the competitiveness of S. meliloti strains. We produced a construct in which a constitutive promoter was placed 190 nucleotides upstream from the start codon of the putA gene. This resulted in an increase in the basal expression of this gene, with this increase being even greater in the presence of the substrate proline. We found that the presence of multicopy plasmids containing this putA gene construct increased the competitiveness of S. meliloti in microcosm experiments in nonsterile soil planted with alfalfa plants subjected to drought stress only during the first month. We investigated whether this construct also increased the competitiveness of S. meliloti strains under agricultural conditions by using it as the inoculum in a contained field experiment at León, Spain. We found that the frequency of nodule occupancy was higher with inoculum containing the modified putA gene for samples that were analyzed after 34 days but not for samples that were analyzed later.     

以gfp为报告基因的肺炎链球菌启动子诱捕文库的构建与分析

首先构建一个以gfp(green fluorescence protein)为报告基因的自杀质粒pEVP3-SDGFP,将肺炎链球菌基因组DNA的随机酶切片段(200bp～800 bp)克隆到该质粒gfp基因上游的多克隆位点,得到约58000个含有肺炎链球茵基因组DNA随机酶切片段的重组子,提取质粒即为质粒库,该库大约覆盖肺炎链球菌基因组全长的5倍,插入率达到90%以上,且有较强的随机性,质量较高.将该质粒库转化入肺炎链球菌TIGR4菌株,带有随机片段的报告质粒通过同源重组的方式将gfp基因融合于细菌染色体上该随机片段之后,利用质粒的抗生素抗性基因筛选出重组菌株,从而构建出相应的菌株库,共获得包含约500000个肺炎链球菌转化子的菌株库,经体内、外实验表明,其包含插入了S.pn体内、外表达基因片段的细菌,可以报告特定条件下的基因表达,并可通过流式细胞仪识别、分选.该文库的构建为进一步利用差异荧光诱导技术筛选肺炎链球菌体内诱导基因奠定了基础.     

Construction of a large signature-tagged mini-Tn5 transposon library and its application to mutagenesis of Sinorhizobium meliloti

Sinorhizobium meliloti genome sequence determination has provided the basis for different approaches of functional genomics for this symbiotic nitrogen-fixing alpha-proteobacterium. One of these approaches is gene disruption with subsequent analysis of mutant phenotypes. This method is efficient for single genes; however, it is laborious and time-consuming if it is used on a large scale. Here, we used a signature-tagged transposon mutagenesis method that allowed analysis of the survival and competitiveness of many mutants in a single experiment. A novel set of signature tags characterized by similar melting temperatures and G+C contents of the tag sequences was developed. The efficiencies of amplification of all tags were expected to be similar. Thus, no preselection of the tags was necessary to create a library of 412 signature-tagged transposons. To achieve high specificity of tag detection, each transposon was bar coded by two signature tags. In order to generate defined, nonredundant sets of signature-tagged S. meliloti mutants for subsequent experiments, 12,000 mutants were constructed, and insertion sites for more than 5,000 mutants were determined. One set consisting of 378 mutants was used in a validation experiment to identify mutants showing altered growth patterns.