斯氏假单胞菌A1501固氮新基因PSTl305的功能分析

[目的]研究斯氏假单胞菌A1501基因组"固氮岛"中PST1305基因在A1501生物固氮过程中所起的作用.[方法]利用同源重组与三亲接合的方法构建PST1305的非极性突变株.乙炔还原法测定固氮酶活.RT.PCR分析PST1305基因与其周围基因转录单元的关系,Real-Time PCR比较PST1305在最佳固氮与非固氮条件下表达水平的差异.[结果]突变株np1305的固氮酶活显著降低,功能互补菌株np1305Comp能基本恢复细胞的固氮作用.PST1305与其上游的nifB、fdxN、下游的nifQ等基因位于同一个转录单元,组成一个操纵子.基因芯片表明,PST1305基因在固氮比非固氮条件下表达量显著上调(约38.7倍),Real-Time PCR验证支持这一结果.[结论]PST1305基因参与固氮过程,其突变会影响固氮酶的活性,该基因可能通过参与A1501固氮酶电子传递或者固氮酶的氧保护过程影响固氮效率.     

固氮施氏假单胞菌亚硝酸盐还原酶基因nirS转录特性及功能鉴定

【目的】研究固氮施氏假单胞菌(Pseudomonas stutzeri)A1501亚硝酸盐还原酶结构基因nir S的转录调控机制及其在反硝化过程中的功能。【方法】构建nir S-lac Z融合载体,利用三亲本结合法将其导入野生型A1501,通过β-半乳糖苷酶活性的测定,分析不同供氧状况、不同浓度的硝酸盐、亚硝酸盐对nir S基因表达的影响;同时将该载体导入rpo N突变株中,研究氮代谢调控因子Rpo N对nir S基因转录影响。通过同源重组方法构建nir S突变株,通过生化表型测定明确nir S在反硝化过程中的功能。【结果】启动子活性测定表明,nir S基因厌氧条件下高水平表达,是好氧条件下表达水平的4倍;nir S的表达受硝酸盐诱导,但不受亚硝酸盐的诱导;Rpo N突变株中,nir S的表达活性为野生型的1/4,nir S启动子未发现Rpo N的保守结合位点,表明nir S的表达受Rpo N间接调控。表型测定显示以硝酸盐为电子受体时Δnir S的反硝化能力降低了约20%;以亚硝酸盐为电子受体时Δnir S仅有微弱的反硝化能力,并且nir S的突变使得菌体在反硝化条件下利用亚硝酸盐的能力显著减弱。nir S突变提高了菌体在亚硝酸为电子受体的反硝化条件下的固氮酶活。【结论】A1501中nir S基因的转录受外界氧及硝酸盐的影响,同时受氮代谢Sigma因子Rpo N的调控。nir S在A1501菌反硝化过程中起关键作用,参与了亚硝酸盐的转化。     

固氮施氏假单胞菌A1501四碳二羧酸结合蛋白DctP的功能及表达特性

【目的】研究施氏假单胞菌(Pseudomonas stutzeri)A1501四碳二羧酸结合蛋白Dct P的生物学功能和自身表达特性。【方法】构建结合蛋白编码基因dct P的非极性突变株,测定dct P突变株以不同四碳二羧酸(琥珀酸延、胡索酸、苹果酸)为唯一碳源时的生长情况和固氮酶活性;构建dct P基因启动子的融合表达载体dct P-lac Z,将其分别转入野生型A1501和ntr BC、rpo N和dct B突变株中,测定在不同四碳二羧酸为唯一碳源诱导条件下重组菌株中的β-半乳糖苷酶活性。【结果】dct P基因的突变使菌株丧失了四碳二羧酸的利用能力,影响了菌株的固氮酶活性;苹果酸、延胡索酸、琥珀酸对dct P-lac Z具有明显的诱导作用;在rpo N、ntr BC和dct B突变株中,dct P的表达量均显著降低。【结论】Dct P蛋白在四碳二羧酸的利用过程中起重要的作用,dct P基因的表达是Rpo N依赖型,可被四碳二羧酸诱导,受到调控蛋白Ntr BC/Dct B的协同调控。     

携带Paenibacillus polymyxa WLY78固氮基因簇(nif)的重组大肠杆菌Escherichia coli 78-7转录组分析（英文）

【目的】来自Paenibacillus polymyxa WLY78的固氮基因簇(nifBHDKEf NXhesAnifV)可以转化入Escherichia coli中表达并使重组大肠杆菌合成有固氮活性的固氮酶。本文拟通过对重组大肠杆菌E.coli78-7的转录组分析以提高其固氮能力。【方法】对固氮条件(无氧无NH+4)和非固氮条件(空气和100 mmol/L NH_4~+)培养的重组大肠杆菌E.coli 78-7进行转录组分析。【结果】nif基因在两种培养条件下显著表达,说明在重组大肠杆菌中可规避原菌中氧气和NH_4~+对nif基因的负调控。对于固氮过程必需的非nif基因,如参与钼、硫、铁元素转运的mod、cys和feoAB,这些基因在两种培养条件下表达水平有差异。而参与铁硫簇合成的suf和isc基因簇在两条件下表达水平差异巨大。此外,参与氮代谢的基因在固氮条件下显著上调。【结论】重组大肠杆菌中与固氮相关的非nif基因在该菌的固氮过程中具有较大影响,本文对在异源宿主中调高固氮酶活性研究具有重要意义。     

华癸根瘤菌7653R hfq基因突变株的构建及其生物学特性

【目的】研究hfq基因在Mesorhizobium huakuii 7653R抵抗外界不利环境和共生固氮中的功能特性。【方法】利用pK19mob同源重组方法构建7653R hfq基因的插入失活突变株7653RΔhfq,并构建互补菌株7653RΔhfq-C,对hfq在压力胁迫和共生固氮中的功能特性进行研究。【结果】与野生型7653R相比,突变株7653RΔhfq的生长速率降低,热激处理后致死率升高;hfq突变影响了7653R中部分sRNA的表达;在4.5%乙醇和50 mmol H_2O_2生长胁迫下,突变株适应性明显较野生型差。另外,接种突变株的紫云英结瘤能力和固氮酶活性都明显降低。【结论】hfq基因作为重要的转录后调控因子,在7653R抵御外界胁迫环境和与宿主紫云英的共生固氮中发挥了重要作用。     

华癸根瘤菌外膜孔蛋白编码基因MCHK_1326突变株的构建与共生固氮表型分析

【目的】Mesorhizobium huakuii 7653R的MCHK_1326基因编码一种外膜孔蛋白,可能参与根瘤菌侵染宿主植物以及结瘤固氮过程,本研究旨在探索该基因在共生固氮中的功能。【方法】生物信息学分析MCHK_1326蛋白的结构特征及生物学功能,启动子原位表达技术检测MCHK_1326共生时空表达特征,利用Cre-loxp系统构建MCHK_1326缺失突变株,考察其共生固氮表型及早期侵染事件,通过植物盆栽并额外添加无机氮源,检测突变株接种紫云英后的共生固氮表型变化。【结果】MCHK_1326基因在侵染早期如侵染线的延伸等过程中表达,在成熟根瘤的侵染区表达,与野生型相比,突变体△1326侵染线和根瘤原基数量显著减少;植株地上部分鲜重与固氮酶活性极显著降低,根瘤数量和根瘤重量显著降低;额外添加无机氮源能恢复其共生缺陷表型。【结论】MCHK_1326基因参与根瘤菌早期侵染和结瘤,在根瘤发育与共生固氮过程中发挥作用。     

黄脂菌素生物合成基因簇中调控基因xanR3的功能

【目的】研究黄脂菌素产生菌灰黄链霉菌中编码ArsR家族转录调控蛋白(Arsenical resistance regulator)的xanR3基因的功能。【方法】利用大肠杆菌和链霉菌双亲本接合转移的方法,构建xanR3基因缺失突变株及回补突变株。利用cDNA在相邻同方向的基因间隔区进行PCR确定黄脂菌素生物合成基因簇中的转录单元。利用荧光定量RT-PCR方法进行突变株中黄脂菌素生物合成基因簇转录水平的检测。【结果】对得到的xanR3基因缺失突变株及回补突变株进行发酵,发现xanR3基因缺失突变株产黄脂菌素能力下降,回补菌株中黄脂菌素产量相比缺失突变株有一定程度的恢复,但仍未达到野生型水平。经鉴定,黄脂菌素生物合成基因簇中共有18个共转录单元,其中4个共转录单元在?xanR3突变株中转录水平明显下降。【结论】ArsR家族转录调控基因xanR3是黄脂菌素生物合成的正调控基因。     

金霉素生物合成基因簇中调控基因ctcB的功能

【目的】研究金霉素产生菌中SARP家族转录调控基因ctc B的作用。【方法】利用大肠杆菌、链霉菌的属间接合转移和同源重组双交换的方法,构建ctc B基因缺失突变株。通过c DNA在相邻同转录方向的基因间隔进行PCR验证,确定金霉素生物合成基因簇中的转录单元。利用荧光定量RT-PCR方法进行突变株金霉素生物合成基因簇的转录水平检测。随后,生物信息学预测分析了金霉素生物合成基因簇内Ctc B与DNA的结合位点。【结果】获得了ctc B基因缺失的双交换突变株。发酵结果显示,该突变株失去产生金霉素与四环素的能力。金霉素生物合成基因簇内有6个共转录单元,其中4个共转录单元在ctc B基因缺失突变株中转录水平明显下降。软件分析预测到一致性较高的Ctc B结合重复序列。【结论】ctc B正调控金霉素生物合成结构基因ctc G-D、ctc H-K、ctc N-P、ctc W-T 4个转录单元和ctc Q,为进一步研究ctc B调控机制奠定了基础。     

华癸根瘤菌urtB基因突变株的构建与共生固氮表型分析

【目的】尿素ABC转运体透性酶亚基编码基因urtB可能参与尿素代谢及支链氨基酸转运;本文旨在获得实验证据阐明urtB基因对华癸根瘤菌结瘤和固氮的影响,为深入研究其功能机制提供一定的科学依据。【方法】利用生物信息学分析urtB基因的结构特征及生物学功能,通过荧光定量检测urtB基因在自生和共生条件下的时空表达特征和启动子原位表达技术检测urtB基因组织表达特征,采用插入突变构建urtB突变株,通过植物盆栽并结合添加氮素处理,检测与分析突变体的共生固氮表型变化。【结果】分析表明urtB基因对于氮素转运非常重要,在共生条件下的表达水平比自生培养条件下显著上调表达;在成熟根瘤的固氮区中大量表达;正确构建和筛选获得了根瘤菌urtB突变株;接种urtB突变株与野生型菌株7653R相比较,突变体根瘤发育异常;植株地上部分生物量和根瘤固氮酶活性显著降低;添加氮素可恢复其共生缺陷表型。【结论】华癸中慢生根瘤菌urtB基因可能通过影响根瘤中氮转运或同化,进而在根瘤发育与共生固氮中发挥重要作用。     

苏云金芽胞杆菌Sigma H对芽胞形成的影响

【目的】检测苏云金芽胞杆菌HD73中的转录调控因子Sigma H(σ~H)对spo0A基因转录的调控作用;异源表达纯化Sigma H蛋白,验证其对spo0A基因启动子的直接结合;检测sigH基因的缺失对苏云金芽胞杆菌HD73芽胞形成和晶体蛋白产生的影响。【方法】通过测定spo0A基因启动子指导的β-半乳糖苷酶活性评价spo0A基因在苏云金芽胞杆菌HD73野生型和sigH缺失突变体中的转录水平;通过PCR扩增苏云金芽胞杆菌HD73的sigH基因并插入到表达载体pET21b上,将质粒转入到表达菌株BL21(DE3)中,得到重组菌株BL21 (pETsigH);利用镍柱亲和纯化和阴离子交换纯化得到纯化的Sigma H蛋白;通过凝胶迁移实验(electrophoretic mobility shift assay,EMSA)验证Sigma H蛋白与spo0A基因启动子的直接结合;通过显微镜观察、活芽胞计数的方法对突变株HDΔsigH进行表型特征分析。【结果】sigH缺失后,spo0A基因转录活性降低;在大肠杆菌中正确表达并纯化出大小约为28kDa的Sigma H-His蛋白;EMSA结果表明纯化后的Sigma H-His蛋白可与spo0A基因启动子结合;镜检和活芽胞计数结果表明突变株HDΔsigH无法产生芽胞和蛋白晶体。【结论】Sigma H蛋白通过与spo0A基因启动子结合直接调控spo0A基因的表达且sigH基因的缺失阻断了苏云金芽胞杆菌中芽胞和晶体蛋白的产生。     

Isolation of an Asm− mutant of Rhizobium japonicum defective in symbiotic N2-fixation

Abstract A mutant strain of Rhizobium japonicum (CJ9) unable to assimilate ammonium (Asm⁻) was isolated following mutagenesis with N -methyl N -nitro-nitrosoguanidine (NTG). Glutamate synthase activity was not detectable in cell-free extracts of the mutant strain in contrast to the wild type and revertant strains. Although mutant CJ9 induced nitrogenase activity in an 'in vitro' assay system under microaerobic conditions, it failed to fix nitrogen (acetylene reduction) in soybean root nodules. These properties of mutant CJ9 constitute a new Asm⁻ mutant class in Rhizobium spp.     

MtMOT1.2 is responsible for molybdate supply to Medicago truncatula nodules

Symbiotic nitrogen fixation in legume root nodules requires a steady supply of molybdenum for synthesis of the iron‐molybdenum cofactor of nitrogenase. This nutrient has to be provided by the host plant from the soil, crossing several symplastically disconnected compartments through molybdate transporters, including members of the MOT1 family. Medicago truncatula Molybdate Transporter (MtMOT) 1.2 is a Medicago truncatula MOT1 family member located in the endodermal cells in roots and nodules. Immunolocalization of a tagged MtMOT1.2 indicates that it is associated to the plasma membrane and to intracellular membrane systems, where it would be transporting molybdate towards the cytosol, as indicated in yeast transport assays. Loss‐of‐function mot1.2‐1 mutant showed reduced growth compared with wild‐type plants when nitrogen fixation was required but not when nitrogen was provided as nitrate. While no effect on molybdenum‐dependent nitrate reductase activity was observed, nitrogenase activity was severely affected, explaining the observed difference of growth depending on nitrogen source. This phenotype was the result of molybdate not reaching the nitrogen‐fixing nodules, since genetic complementation with a wild‐type MtMOT1.2 gene or molybdate‐fortification of the nutrient solution, both restored wild‐type levels of growth and nitrogenase activity. These results support a model in which MtMOT1.2 would mediate molybdate delivery by the vasculature into the nodules.     

A single residue mutation of 5-enoylpyruvylshikimate-3-phosphate synthase in Pseudomonas stutzeri enhances resistance to the herbicide glyphosate

A novel class II 5-enoylpyruvylshikimate-3-phosphate synthase (EPSPS) was identified from Pseudomonas stutzeri A1501 by complementation of an Escherichia coli auxotrophic aroA mutant. The single amino acid substitution of serine (Ser) for asparagine (Asn)-130 of the A1501 EPSPS enhanced resistance to 200 mM glyphosate. The mutated EPSPS had a 2.5-fold increase for IC(50) [glyphosate] value, a 2-fold increase for K (i) [glyphosate] value, but a K (m) [PEP] value similar to that of wild type. The effect of the single residue mutation on glyphosate resistance was also analyzed using a computer-based three-dimensional model.     

Characterization of an rpoN mutant of Mesorhizobium ciceri

AIMS: To study the genetic basis of C(4)-dicarboxylate transport (Dct) in relation to symbiotic nitrogen fixation in Mesorhizobium ciceri. METHODS AND RESULTS: A Tn5-induced mutant strain (TL16) of M. ciceri, unable to grow on C(4)-dicarboxylates, was isolated from the wild-type strain TAL 620. The mutant lacked activities of the enzymes, which use C(4)-dicarboxylates as substrate. The sequencing of the 3.2kb EcoRI fragment, which was the site of Tn5 insertion, revealed three complete and two partial open reading frames. In the mutant, Tn5 interrupted the rpoN gene, of which only one copy was there. Complementation and biochemical studies suggest that the M. ciceri rpoN activity is required for C(4)-Dct, maturation of bacteroids and symbiotic nitrogen fixation. The fine structure of the ineffective nodules produced by TL16 on Cicer arietinum L changed in comparison with those produced by the wild type. CONCLUSIONS: The mutant strain TL16 suffered a disruption in the rpoN gene. Only one copy of rpoN gene is present in M. ciceri. The mutation abolishes Dct activity. It additionally abolishes the symbiotic nitrogen fixation activity of the bacteroids in the nodules. SIGNIFICANCE AND IMPACT OF THE STUDY: This first document in M. ciceri shows that a functional rpoN gene is essential for the transport of dicarboxylic acids and symbiotic nitrogen fixation.     

MSX-resistant mutants of Anabaena 7120 with derepressed heterocyst development and nitrogen fixation

To investigate the role of ammonium-assimilating enzyme in heterocyst differentiation, pattern formation and nitrogen fixation, MSX-resistant and GS-impaired mutants of Anabaena 7120 were isolated using transposon (Tn5-1063) mutagenesis. Mutant Gs1 and Gs2 (impaired in GS activity) exhibited a similar rate of nitrogenase activity compared to that of the wild type under dinitrogen aerobic conditions in the presence and absence of MSX. Filaments of Gs1 and Gs2 produced heterocysts with an evenly spaced pattern in N₂-grown conditions, while addition of MSX altered the interheterocyst spacing pattern in wild type as well as in mutant strains. The wild type showed complete repression of heterocyst development and nitrogen fixation in the presence of NO₃ ^– or NH₄ ⁺, whereas the mutants Gs1 and Gs2 formed heterocysts and fixed nitrogen in the presence of NO₃ ^– and NH₄ ⁺. Addition of MSX caused complete inhibition of glutamine synthetase activity in wild type but Gs1 and Gs2 remained unaffected. These results suggest that glutamine but not ammonium is directly involved in regulation of heterocyst differentiation, interheterocyst spacing pattern and nitrogen fixation in Anabaena.     

rpoS基因插入突变对铜绿假单胞菌两个吩嗪合成基因簇的调控

【目的】为了研究铜绿假单胞菌rpoS基因对吩嗪(Phenazine)合成基因簇phz1和phz2的调控方式与机制。【方法】采用抗庆大霉素基因(gentamycin resistance cassette,aacC1)插入失活的策略构建了rpoS基因突变株PA-SG;同时利用lacZ的翻译融合表达载体pME6015,构建了phz1′-′lacZ和phz2′-′lacZ翻译融合表达载体pMEZ1和pMEZ2。采用电转化法分别将pMEZ1、pMEZ2和pME6015导入铜绿假单胞菌突变株PA-SG和野生株PAO1,用Miller法检测融合β-半乳糖苷酶活性。【结果】在KMB或PPM培养基中,pMEZ1在突变株PA-SG中的表达均增强,为野生株的4-5倍;而pMEZ2在突变株PA-SG中的表达均降低,野生株是突变株的2-3倍。【结论】由此推测,铜绿假单胞菌rpoS基因对两个不同吩嗪合成基因簇的调控作用具有特异性,在一定程度上,rpoS负调控phz1,正调控phz2。     

水稻根际兼性厌氧催娩克氏杆菌和阴沟肠杆菌的固氮与氢代谢

兼性厌氧细菌Enterobacter cloacae菌株E-26和Klebsiella oxytoca菌株NG-13的氢酶与固氮酶同时形成。固氮的最佳碳源为蔗糖、葡萄糖和丙酮酸,此外延胡索酸和苹果酸也能支持固氮。支持固氮的碳源也支持放氢,两者动力学基本一致。40％乙炔预处理后,吸氢活性下跌,放氢量未增加;NH_4~ 抑制固氮酶,但未导致放氢量降低;可能E-26菌株的放氢主要依赖于氢酶。菌株E-26和NG-13的吸氢反应,既能以O_2为电子受体,也能以延胡索酸、硝酸、MB为电子受体。但仅延胡索酸为电子受体时,E-26菌的固氮活性被分子H_2促进,它的氢吸收利用与固氮相偶联;而在CO_2和NH_4~ 代谢与H_2利用之间并无明显相关性,吸氢活性不被CO_2和NH_4~ 促进。