茎瘤固氮根瘤菌趋化系统基因的比较基因组学分析及相关蛋白序列分析（英文）

【目的】茎瘤固氮根瘤菌既可以与毛萼田菁共生固氮,又可以自生或作为内生菌在其他植物体内固氮。由于其具有3种生活状态及固氮能力,其感受外界信号的趋化系统应当更为复杂多样。目前对茎瘤固氮根瘤菌的趋化通路研究很少,因此我们将茎瘤固氮根瘤菌的趋化系统与其他已有研究的菌株相比较。【方法】基于NCBI蛋白数据库,利用BLAST程序对菌株ORS571及已公布全基因组序列的α变形菌门的其他菌种进行趋化基因簇的比较分析;基于Pfam蛋白数据库,利用HMMER3程序对甲基化受体蛋白序列进行比较分析。【结果】分析结果表明茎瘤固氮根瘤菌中有1条主要的趋化基因簇,其中所编码的甲基化酶Che R为非五肽依赖型;此外,该菌还具有43个甲基化受体蛋白基因,所编码的受体蛋白保守区段均由38个七肽单位组成。【结论】通过比较基因组学的分析可知茎瘤固氮根瘤菌与其他菌属相比趋化系统具有高度同源性,但同时存在自身的独特性,这一结论能够使我们更好的了解茎瘤固氮根瘤菌利用趋化系统适应环境的过程。     

如东田菁根瘤菌遗传多样性及高效促生菌株筛选

摘要:【目的】研究江苏如东沿海滩涂田菁根瘤菌的遗传多样性和系统发育,筛选高效促生田菁根瘤菌。【方法】采用16S rRNA基因、持家基因(recA、atpD、glnⅡ)、共生基因(nodA、nifH)的系统发育分析,并进行温室盆栽接种试验筛选高效菌株。【结果】分离到的32株田菁根瘤菌分布于Ensifer、Neorhizobium、Rhizobium,并与E. meliloti、N. huautlense、E. sesbaniae、R. pusense 亲缘关系最近。共生基因nodA、nifH的系统进化分析结果基本一致,均与E. saheli 最为相近。7株代表菌株均能耐受5%的NaCl(W/V)浓度,其中YIC5082耐盐性最强,能够耐受6%的NaCl。温室盆栽试验表明7 株代表菌株均能与田菁有效结瘤固氮,其中6株菌显著提高了植株的株高和鲜重。【结论】江苏如东沿海滩涂田菁根瘤菌具有较丰富的遗传多样性,其中N．huautlense、E．meliloti为优势种。该地区的田菁根瘤菌多数具有较好的共生有效性及耐盐性,YIC5077促生效果最为突出,并表现出较强的固氮及结瘤能力,具有良好的应用前景。     

茎瘤固氮根瘤菌ORS571 GGDEF和EAL结构域蛋白的预测及功能研究（英文）

【目的】环二鸟苷酸c-di-GMP是细菌中广泛存在的第二信使,能够调控多种细胞功能。c-di-GMP的合成与水解分别由含有GGDEF结构域和EAL结构域的蛋白催化。本研究针对茎瘤固氮根瘤菌ORS571的GGDEF和EAL结构域相关蛋白进行基因组学分析,并对三个同时含有GGDEF和EAL结构域的蛋白(AZC_3085、AZC_3226和AZC_4658)进行功能研究。【方法】利用SMART数据库对含有GGDEF和EAL结构域的蛋白进行结构域预测。利用CLUSTALW程序对蛋白序列进行比较分析。通过同源重组的方法构建突变株,并对突变株的细胞运动能力、胞外多糖合成、生物膜形成及与豆科宿主的结瘤等表型进行测定。【结果】茎瘤固氮根瘤菌ORS571中一共存在37个GGDEF和EAL结构域蛋白。突变株?4658的运动能力较野生型有下降,但是其胞外多糖合成能力、生物膜形成能力和竞争性结瘤能力较野生型有提高。此外,实验结果表明突变株?4658的胞内c-di-GMP水平高于野生型。突变株?3085和?3226的各种表型与野生型相比没有明显差异。【结论】茎瘤固氮根瘤菌ORS571编码如此大数量的GGDEF和EAL结构域蛋白,表明c-di-GMP可能在其信号转导过程中起到非常重要的作用。同时具有GGDEF和EAL结构域的蛋白AZC_4658对茎瘤固氮根瘤菌ORS571的运动能力、胞外多糖合成、生物膜形成及与宿主的结瘤起到一定的调节作用。     

毛萼田菁茎瘤菌（Azorhizobium caulinodans）吸氢活性缺陷株的筛…

利用转座子Ｔｎ５随机插入突变法,从毛萼田菁茎瘤菌中筛选得到两株吸氢活性缺陷突变株Ｒ－４９和Ｒ－３０９,其固氮酶活性也大大降低,约为野生型固氮酶活性的６－８％。以带有Ｂｒａｄｙｒｈｉｚｏｂｉｕｍ ｊａｐｏｎｉｃｕｍ的５．９ｋｂ的ｈｕｐ基因的质粒ＰＨＲ１１为探针与Ａ．ｃｏｕｌｉｎｏｄａｍｓＯＲＳ５７１和Ｂ．ｊａｐｏｎｉｃｕｍ１２２ＤＥＳ（Ｈｕｐ）的总ＤＮＡ进行分子杂交,放射自显影表明,Ａ．ｃｏｕｌｉｎ     

茎瘤固氮根瘤菌环二鸟苷酸代谢相关基因的功能鉴定

【目的】考察茎瘤固氮根瘤菌ORS571中c-di-GMP合成酶AZC-2412的编码基因缺失的突变表型,初步探究其功能机理。【方法】本实验构建基于cre-loxp重组酶系统的根瘤菌基因敲除系统,以及采用三亲接合技术构建突变株。测定野生型和突变株的生长速率、趋化能力、胞外多糖产量、生物膜形成等表型。【结果】突变株与野生型生长速率几乎相同。与野生型相比突变株由于细胞内c-di-GMP水平降低,胞外多糖、生物膜产量等均有所下降。【结论】实验表明,环二鸟苷酸合成酶AZC-2412缺失,使得c-di-GMP水平降低,对胞外多糖生成、细菌的运动能力、生物膜的形成、细胞絮凝、与植物的互作等均有调控作用。     

茎瘤固氮根瘤菌ORS571鞭毛马达基因fliN与fliM的功能分析

【目的】考察茎瘤固氮根瘤菌ORS571中鞭毛马达蛋白FliN、FliM的编码基因分别缺失的突变体表型,初步探究其功能机理。【方法】本研究采用同源重组和三亲本接合转移的方法构建突变体,测定野生型及突变株的生长曲线、趋化性、胞外多糖的分泌、生物膜的形成及细胞絮凝等表型。【结果】三种菌株的生长速率基本无差,与野生型菌株相比突变株鞭毛结构丧失,趋化能力、分泌的胞外多糖和生物膜形成能力均下降,但相同时间内细胞絮凝程度比野生型明显。【结论】实验表明,鞭毛基因fliN、fliM对茎瘤固氮根瘤菌ORS571鞭毛的形成、趋化运动、胞外多糖的分泌、生物膜的形成及细胞絮凝能力等均有调控作用。     

茎瘤固氮根瘤菌甲基化受体蛋白Tlp1的功能

【目的】考察茎瘤固氮根瘤菌中趋化基因簇上游的受体蛋白Tlp1编码基因的突变表型,初步探究其功能机理。【方法】利用同源重组和三亲本接合转移的方法构建突变株,在TY培养基中测定生长情况,半固体平板法观察趋化圈,刚果红固体培养基观察胞外多糖和次生代谢产物的分泌,乙炔还原法测定菌株的固氮酶活性。【结果】与野生型菌株相比,tlp1突变株的生长速率没有影响。在以甘油为碳源的L3半固体平板上突变株的趋化圈变小,其回补菌株能部分回补趋化能力。突变株的胞外多糖分泌与野生型没有区别,但其次生代谢产物黑色素出现的时间比野生型稍早。在固氮酶活性测定中,发现突变株酶活性明显比野生型降低,回补菌株能够部分回补。【结论】茎瘤固氮根瘤菌Tlp1蛋白对甘油表现出一定的趋化能力,并且影响细菌的次生代谢产物和固氮能力。     

根瘤菌对广金钱草种子萌发及幼苗生长的影响

为探求促进广金钱草萌发及生长的有效途径,该文使用不同浓度的费氏中华根瘤菌、放射型根瘤菌以及田菁茎瘤固氮根瘤菌菌液分别浸染广金钱草种子,以蒸馏水浸泡种子为空白处理,研究其对广金钱草种子萌发指标(发芽率、发芽势、发芽指数、活力指数)的影响,并在温室培养40、60、80 d后分别测定广金钱草幼苗的生长指标(叶片数、分枝数、株高)及部分生理指标(叶绿素含量、含氮量)的变化。结果表明:(1)在1×10⁷ CFU·mL^-1浓度条件下,三种菌液浸种均获得最大萌发指标,其中田菁茎瘤固氮根瘤菌实验组效果最显著,发芽率、发芽势、发芽指数和活力指数高于对照组16.00%、9.33%、9.51和41.34%。(2)除田菁茎瘤固氮根瘤菌实验组外,其余实验组的广金钱草幼苗叶片数、分枝数及株高均低于对照组。(3)放射型根瘤菌实验组和田菁茎瘤固氮根瘤菌实验组幼苗叶绿素含量相比对照组分别增加1.47%和7.47%,含氮量分别增加0.57%和5.17%。综上所述,三种根瘤菌菌液浸种均可在不同程度上提高广金钱草种子的发芽能力和植株生长期的叶绿素和含氮量,其中田菁茎瘤固氮根瘤菌具有最大正向影响,可有效提高种子萌发能力并促进植株生长。该研究可为不同地区广金钱草的种植和栽培提供技术指导,为开发田菁茎瘤固氮根瘤菌作为植物促生长菌剂提供理论支持。     

毛萼田菁茎瘤菌(Azorhizobium caulinodans)吸氢活性缺陷株的筛选及特性

利用转座子Tn5随机插入突变法,从毛萼田菁茎瘤菌（Azorhizobiumcaulinodans）中筛选得到两株吸氢活性缺陷突变株（Hup-）R－49和R－309,其固氮酶活性也大大降低,约为野生型固氮酶活性的6％～8％。以带有Bradyrhizobiumjaponicum的5．9kb的hup基因的质粒pHR11为探针与A．caulinodansORS571和B.japonicum122DES（Hup＋）的总DNA进行分子杂交,放射自显影表明,A．coulinodans基因组含有与B.japonicum的hup基因同源的DNA片段,将携带B．japonicumhup基因的嵌合质粒pHR11与A.caulinodansHup-突变株进行体内遗传互补,接合转移子吸氢酶活性可以恢复至野生型的60％,同时固氮酶的活性亦有所提高。     

katG基因在豌豆根瘤菌抗氧化中的功能

摘要:【目的】细菌中过氧化物/过氧化氢酶KatG参与活性氧(ROS)的解毒过程,从而防止其对细菌生长伤害,本文研究根瘤菌中katG基因的抗氧化功能对豌豆根瘤菌3841生长及共生固氮的影响。【方法】通过基因敲除、遗传互补和对菌株的抗氧化和共生能力分析,系统地探究了根瘤菌中katG基因的功能。【结果】katG基因突变不影响菌株在自生培养条件下生长状况,但H2O2短时间处理导致突变株的存活率显著下降。实时荧光定量RT-PCR结果显示,H2O2不能诱导豌豆根瘤菌3841katG基因的表达。进一步研究发现突变体中katG基因缺失能显著提高抗氧化基因ohrB的表达,而降低grxC基因的表达。植物盆栽实验发现,katG突变虽然对根瘤菌共生固氮能力和竞争结瘤能力均无影响,但katG在类菌体中表达显著下调。同时,katG突变显著影响了根瘤菌在植物根圈中的定殖能力。【结论】研究表明katG虽对豌豆根瘤菌自生和共生固氮无明显影响,但在抗氧化和根圈定殖中起重要作用,外源H2O2对katG的表达无诱导作用,但katG调节ohrB和grxC等抗氧化基因的表达,从而在抗氧化和共生中发挥作用。     

Spontaneous mutants of Alteromonas espejiana, resistant to kanamycin and bleomycin

An attempt was made to induce insertions in marine bacterium Alteromonas espejiana Bal-31 (Ae) using the TnphoA transposon. The Ae mutants selected on a kanamycin-containing medium after conjugation of the Ae with the transposon donor, Escherichia coli SM10(pRt291), were resistant not only to kanamycin (Kn), but also to bleomycin (Bm), and were sensitive to tetracycline. Although the mutants were phenotypically similar to insertion mutants, the mutations appeared to be spontaneous. The sensitivity of spontaneous Kmr Ae mutants selected at various Km concentrations to Bm was investigated. The mutants selected at low Km concentrations were resistant to Bm, whereas those selected at high Km concentrations were sensitive to Bm. The possible mechanisms underlying the dual resistance to Bm and aminoglycosides in bacteria are discussed.     

Stability, frequency and multiplicity of transposon insertions in the pyoverdine region in the chromosomes of different fluorescent pseudomonads.

Tn5 mutagenesis of different fluorescent pseudomonads was achieved by conjugational transfer of the suicide vector pSUP 10141. Pyoverdine negative (Pvd-) mutants were detected by the absence of fluorescence on King's B medium and by their inability to grow in the presence of the iron chelator EDDHA [ethylenediamine di(o-hydroxyphenylacetic acid)]. In P. fluorescens ATCC 17400 and three rhizosphere isolates (one P. putida and two P. fluorescens), the percentage of Pvd- mutants ranged between 0 and 0.54%. In a P. chlororaphis rhizosphere isolate, this percentage was higher (4%). In these mutants both of the Tn5 antibiotic resistances (Km and Tc) were stable and the transposon could be detected by hybridization. In Pvd- mutants of P. fluorescens ATCC 17400, the transposon was found to be inserted twice in the chromosome while single insertions were detected in the DNA of other, randomly tested mutants. In P. aeruginosa PAO1, where 13.1% of the mutants were Pvd-, both antibiotic resistances were rapidly lost and accordingly no transposon insertion could be detected by hybridization. However, the Pvd- phenotype was generally stable in these mutants. The plasmid pNK862 containing a mini-Tn10 transposon was introduced by electroporation into P. aeruginosa PAO1 and Kmr mutants were recovered, 89% of which were Pvd- and confirmed to be P. aeruginosa by PCR amplification of the P. aeruginosa lipoprotein gene. The mini-Tn10 insertions were also found to be unstable in PAO1.     

铜绿假单胞菌多重耐药基因的筛选及鉴定

[目的]研究铜绿假单胞菌中与耐药性相关的基因.[方法]筛选转座突变体文库中对多种抗菌药物敏感的突变体,通过随机PCR、核苷酸测序及序列比对确定突变体中转座子的插入位点及其破坏的基因.[结果]筛选得到2株对多种抗菌药物敏感的突变体,其中被破坏的基因分别为功能未知的新基因PA2580和PA2800.[结论]PA2580和PA2800可能分别通过参与细胞氧化还原作用和细胞壁合成进而与铜绿假单胞菌耐药性相关.     

Novel one-step cloning vector with a transposable element: application to the Myxococcus xanthus genome.

A new strategy was developed for rapid cloning of genes with a transposon mutation library. We constructed a transposon designated TnV that was derived from Tn5 and consists of the gene coding for neomycin phosphotransferase II as well as the replication origin of an Escherichia coli plasmid, pSC101, flanked by Tn5 inverted repeats (IS50L and IS50R). TnV can transpose to many different sites of DNA in E. coli and Myxococcus xanthus and confers kanamycin resistance (Kmr) to the cells. From the Kmr cells, one-step cloning of a gene which is mutated as a result of TnV insertion can be achieved as follows. Chromosomal DNA isolated from TnV-mutagenized cells is digested with an appropriate restriction enzyme, ligated, and transformed into E. coli cells with selection for Kmr. The plasmids isolated contain TnV in the target gene. The plasmid DNA can then be used as a probe for characterization of the gene and screening of clones from a genomic library. We used this vector to clone DNA fragments containing genes involved in the development of M. xanthus.     

Pseudomonas fluorescens CHA0 can kill subterranean termite Odontotermes obesus by inhibiting cytochrome c oxidase of the termite respiratory chain

In the rhizosphere and their interaction with plants rhizobia encounter many different plant compounds, including phytohormones like auxins. Moreover, some rhizobial strains are capable of producing the auxin, indole-3-acetic acid (IAA). However, the role of IAA for the bacterial partner in the legume– Rhizobium symbiosis is not known. To identify the effect of IAA on rhizobial gene expression, a transposon (mTn 5gusA - oriV ) mutant library of Rhizobium etli , enriched for mutants that show differential gene expression under microaerobiosis and/or addition of nodule extracts as compared with control conditions, was screened for altered gene expression upon IAA addition. Four genes were found to be regulated by IAA. These genes appear to be involved in plant signal processing, motility or attachment to plant roots, clearly demonstrating a distinct role for IAA in legume– Rhizobium interactions.     

An unusual genetic link between vitamin B6 biosynthesis and tRNA pseudouridine modification in Escherichia coli K-12

We characterized several unusual phenotypes caused by stable insertion mutations in a gene that is located upstream in the same operon from hisT, which encodes the tRNA modification enzyme pseudouridine synthase I. Mutants containing kanamycin resistance (Kmr) cassettes in this upstream gene, which we temporarily designated usg-2, failed to grow on minimal plus glucose medium at 37 and 42 degrees C. However, usg-2::Kmr mutants did form oddly translucent, mucoid colonies at 30 degrees C or below. Microscopic examination revealed that cells from these translucent colonies were spherical and seemed to divide equatorially. Addition of D-alanine restored the shape of the mutant cells to rods and allowed the mutants to grow slowly at 37 degrees C and above. By contrast, addition of the common L-amino acids prevented growth of the usg-2::Kmr mutants, even at 30 degrees C. Furthermore, prolonged incubation of usg-2::Kmr mutants at 37 and 42 degrees C led to the appearance of several classes of temperature-resistant pseudorevertants. Other compounds also supported growth of usg-2::Kmr mutants at 37 and 42 degrees C, including glycolaldehyde and the B6 vitamers pyridoxine and pyridoxal. This observation suggested that usg-2 was pdxB, which had been mapped near hisT. Complementation experiments confirmed that usg-2 is indeed pdxB, and inspection of the pyridoxine biosynthetic pathway suggests explanations for the unusual phenotypes of pdxB::Kmr mutants. Finally, Southern hybridization experiments showed that pdxB and hisT are closely associated in several enterobacterial species. We consider reasons for grouping pdxB and hisT together in the same complex operon and speculate that these two genes play roles in the global regulation of amino acid metabolism.     

铜绿假单胞菌中一个新的吩嗪合成调节基因

[目的]在次抑制浓度四环素条件下,研究铜绿假单胞菌phzAl操纵子的调节基因及调节途径.[方法]对转座突变库中phaAl操纵子表达发生变化的突变体,进行随机PCR、基因测序及比对,确定突变位点.并以发光杆菌的荧光素酶基因操纵子luxCDABE为报道基因,研究基因调节作用及调节路径.[结果]在两株突变体PAM0487和PAM0487R中phzAl操纵子的表达降低,这两株突变体的突变基因确定为假定钼元素转运蛋白调节子PA0487基因.[结论]PA0487是phzAl操纵子表达的一个新的正向调节子,并对密度感应系统相关基因的表达有凋节作用.     

Insertional mutagenesis by random cloning of antibiotic resistance genes into the genome of the cyanobacterium Synechocystis strain PCC 6803

The facultative heterotrophic cyanobacterium Synechocystis sp. strain PCC 6803 was transformed by HaeII Cmr fragments ligated at random to HaeII DNA fragments of the host genome. A similar transformation was done with an AvaII Kmr marker ligated to AvaII host DNA fragments. Integration of the resistance markers into the host genome led to a high frequency of stable Kmr and Cmr transformants. Physical analysis of individual transformants indicated that this result was due to homologous recombination by conversionlike events leading to insertion of the Cmr (or Kmr) gene between two HaeII (or AvaII) sites of the host genome, with precise deletion of the host DNA between these sites. In contrast, integrative crossover of circular DNA molecules with homology to the host DNA is very rare in this cyanobacterium. Strain PCC 6803 was shown to have about 12 genomic copies per cell in standard growth conditions, which complicates the detection of recessive mutations induced by chemical or UV mutagenesis. Random disruption of the host DNA by insertional transformation provides a convenient alternative to transposon mutagenesis in cyanobacteria and may help to overcome the difficulties encountered in generating recessive mutants by classical mutagenesis.     

Identification of low-temperature-regulated genes in the fire blight pathogen Erwinia amylovora

Genes involved in pathogenicity of several plant pathogens were shown to be induced at relatively cold temperatures. Loci from the fire blight pathogen Erwinia amylovora (Burrill) induced at 18 degrees C were identified using the miniTn5 transposon that contains the promoterless reporter gene gusA coding for beta-glucuronidase (GUS). Certain mutants (2.7%) expressed GUS predominantly at 18 degrees C on minimal medium plates, indicating that the transposon had been inserted downstream of a putatively thermoregulated promoter. Those mutants were further screened with a quantitative GUS fluorometric assay. A total of 21 mutants were selected: 19 mutants had a transposon insertion in temperature-dependent genetic loci, with a 2.2- to 6.3-fold induction of gusA gene expression at 18 degrees C, and two mutants with impaired growth at 18 degrees C. Some of these genetic loci encoded (i) proteins implicated in flagella biosynthesis, biotin biosynthesis, multi-drug efflux, and type II secretion protein, and (ii) proteins of unknown function.     

Mechanisms of microbially enhanced Fe acquisition in red clover (Trifolium pratense L.)

Soil microorganisms may play an important role in plant Fe uptake from soils with low Fe bioavailability, but there is little direct experimental evidence to date. We grew red clover, an Fe-efficient leguminous plant, in a calcareous soil to investigate the role of soil microbial activity in plant Fe uptake. Compared with plants grown in non-sterlie (NS) grown plants, growth and Fe content of the sterile(s) grown plants was significantly inhibited, but was improved by foliar application of Fe EDTA, indicating that soil microbial activity should play an important role in plant Fe acquisition. When soil solution was incubated with phenolic root exudates from Fe-deficient red clover, a few microbial species thrived while growth of the rest was inhibited, suggesting that the Fe-deficient (-Fe) root exudates selectively influenced the rhizosphere's microbial community. Eighty six per cent of the phenolic-tolerant microbes could produce siderophore [the Fe(III) chelator] under -Fe conditions, and 71% could secrete auxin-like compounds. Interestingly, the synthetic and microbial auxins (MAs) significantly enhanced the Ferric reduction system, suggesting that MAs, in addition to siderophores, are important to plant Fe uptake. Finally, plant growth and Fe uptake in sterilized soil were significantly increased by rhizobia inoculation. Root Fe-EDTA reductase activity in the -Fe plant was significantly enhanced by rhizobia infection, and the rhizobia could produce auxin but not siderophore under Fe-limiting conditions, suggesting that the contribution of nodulating rhizobia to plant Fe uptake can be at least partially attributed to stimulation of turbo reductase activity through nodule formation and auxin production in the rhizosphere. Based on these observations, we propose as a model that root exudates from -Fe plants selectively influence the rhizosphere microbial community, and the microbes in turn favour plant Fe acquisition by producing siderophores and auxins.