Crystal structure of NADP(H)-dependent 1,5-anhydro-D-fructose reductase from Sinorhizobium morelense at 2.2 A resolution: construction of a NADH-accepting mutant and its application in rare sugar synthesis

Recombinant 1,5-anhydro-d-fructose reductase (AFR) from Sinorhizobium morelense S-30.7.5 was crystallized in complex with the cofactor NADP(H) and its structure determined to 2.2 A resolution using selenomethionine SAD (refined R(work) and R(free) factors of 18.9 and 25.0%, respectively). As predicted from the sequence and shown by the structure, AFR can be assigned to the GFO/IDH/MocA protein family. AFR consists of two domains. The N-terminal domain displays a Rossmann fold and contains the cofactor binding site. The intact crystals contain the oxidized cofactor NADP(+), whose attachment to the cofactor binding site is similar to that of NADP(+) in glucose-fructose oxidoreductase (GFOR) from Zymomonas mobilis. Due to variations in length and sequence within loop regions L3 and L5, respectively, the adenine moiety of NADP(+) adopts a different orientation in AFR caused by residue Arg38 forming hydrogen bonds with the 2'-phosphate moiety of NADP(+) and cation-pi stacking interactions with the adenine ring. Amino acid replacements in AFR (S10G, A13G, and S33D) showed that Ala13 is crucial for the discrimination between NADPH and NADH and yielded the A13G variant with dual cosubstrate specificity. The C-terminal domain contains the putative substrate binding site that was occupied by an acetate ion. As determined by analogy to GFOR and by site-directed mutagenesis of K94G, D176A, and H180A, residues Lys94, Asp176, and His180 are most likely involved in substrate binding and catalysis, as substitution of any of these residues resulted in a significant decrease in k(cat) for 1,5-AF. In this context, His180 might serve as a general acid-base catalyst by polarizing the carbonyl function of 1,5-AF to enable the transfer of the hydride from NADPH to the substrate. Here we present the first structure of an AFR enzyme catalyzing the stereoselective reduction of 1,5-AF to 1,5-anhydro-d-mannitol, the final step of a modified anhydrofructose pathway in S. morelense S-30.7.5. We also emphasize the importance of the A13G variant in biocatalysis for the synthesis of 1,5-AM and related derivatives.     

Identification of an iron-regulated,hemin-binding outer membrane protein in Sinorhizobium meliloti

Rhizobia are soil bacteria that are able to establish symbiotic associations with leguminous hosts. In iron-limited environments these bacteria can use iron present in heme or heme compounds (hemoglobin, leghemoglobin). Here we report the presence in Sinorhizobium meliloti of an iron-regulated outer membrane protein that is able to bind hemin but not hemoglobin. Protein assignment was done by matrix-assisted laser desorption ionization-time of flight mass spectrometry. Tryptic peptides correlated with the mass measurements obtained accounted for 54% of the translated sequence of a putative heme receptor gene present in the chromosome of S. meliloti 1021. The results which we obtained suggest that this protein (designated ShmR for Sinorhizobium heme receptor) is involved in high-affinity heme-mediated iron transport.     

Genetic and biochemical characterization of a pathway for the degradation of 2-aminoethylphosphonate in Sinorhizobium meliloti 1021

A variety of microorganisms have the ability to use phosphonic acids as sole sources of phosphorus. Here, a novel pathway for degradation of 2-aminoethylphosphonate in the bacterium Sinorhizobium meliloti 1021 is proposed based on the analysis of the genome sequence. Gene deletion experiments confirmed the involvement of the locus containing phnW, phnA, and phnY genes in the conversion of 2-aminoethylphosphonate to inorganic phosphate. Biochemical studies of the recombinant PhnY and PhnA proteins verified their roles as phosphonoacetaldehyde dehydrogenase and phosphonoacetate hydrolase, respectively. This pathway is likely not limited to S. meliloti as suggested by the presence of homologous gene clusters in other bacterial genomes.     

Novel DNA sequences from natural strains of the nitrogen-fixing symbiotic bacterium Sinorhizobium meliloti

Variation in genome size and content is common among bacterial strains. Identifying these naturally occurring differences can accelerate our understanding of bacterial attributes, such as ecological specialization and genome evolution. In this study, we used representational difference analysis to identify potentially novel sequences not present in the sequenced laboratory strain Rm1021 of the nitrogen-fixing bacterium Sinorhizobium meliloti. Using strain Rm1021 as the driver and the type strain of S. meliloti ATCC 9930, which has a genome size approximately 370 kilobases bigger than that of strain Rm1021, as the tester, we identified several groups of sequences in the ATCC 9930 genome not present in strain Rm1021. Among the 85 novel DNA fragments examined, 55 showed no obvious homologs anywhere in the public databases. Of the remaining 30 sequences, 24 contained homologs to the Rm1021 genome as well as unique segments not found in Rm1021, 3 contained sequences homologous to those published for another S. meliloti strain but absent in Rm1021, 2 contained sequences homologous to other symbiotic nitrogen-fixing bacteria (Rhizobium etli and Bradyrhizobium japonicum), and 1 contained a sequence homologous to a gene in a non-nitrogen-fixing species, Pseudomonas sp. NK87. Using PCR, we assayed the distribution of 12 of the above 85 novel sequences in a collection of 59 natural S. meliloti strains. The distribution varied widely among the 12 novel DNA fragments, from 1.7% to 72.9%. No apparent correlation was found between the distribution of these novel DNA sequences and their genotypes obtained using multilocus enzyme electrophoresis. Our results suggest potentially high rates of gene gain and loss in S. meliloti genomes.     

Increase in alfalfa nodulation, nitrogen fixation, and plant growth by specific DNA amplification in Sinorhizobium meliloti.

To improve symbiotic nitrogen fixation on alfalfa plants, Sinorhizobium meliloti strains containing different average copy numbers of a symbiotic DNA region were constructed by specific DNA amplification (SDA). A DNA fragment containing a regulatory gene (nodD1), the common nodulation genes (nodABC), and an operon essential for nitrogen fixation (nifN) from the nod regulon region of the symbiotic plasmid pSyma of S. meliloti was cloned into a plasmid unable to replicate in this organism. The plasmid then was integrated into the homologous DNA region of S. meliloti strains 41 and 1021, which resulted in a duplication of the symbiotic region. Sinorhizobium derivatives carrying further amplification were selected by growing the bacteria in increased concentrations of an antibiotic marker present in the integrated vector. Derivatives of strain 41 containing averages of 3 and 6 copies and a derivative of strain 1021 containing an average of 2.5 copies of the symbiotic region were obtained. In addition, the same region was introduced into both strains as a multicopy plasmid, yielding derivatives with an average of seven copies per cell. Nodulation, nitrogenase activity, plant nitrogen content, and plant growth were analyzed in alfalfa plants inoculated with the different strains. The copy number of the symbiotic region was critical in determining the plant phenotype. In the case of the strains with a moderate increase in copy number, symbiotic properties were improved significantly. The inoculation of alfalfa with these strains resulted in an enhancement of plant growth.     

Probing for pH-regulated genes in Sinorhizobium medicae using transcriptional analysis

The low pH sensitivity of Sinorhizobium species is one of the major causes of reduced productivity of Medicago species (such as lucerne) sown in acidic soils. To investigate the pH response of an acid-tolerant Sinorhizobium medicae strain, a pool of random promoter fusions to gusA was created using minitransposon insertional mutagenesis. Acid-activated expression was identified in 11 mutants; rhizobial DNA flanking insertions in 10 mutants could be cloned and the DNA sequences obtained were used to interrogate the genome database of Sinorhizobium meliloti strain 1021. Acid activated expression was detected for fixNO, kdpC, lpiA, and phrR and for genes encoding a putative lipoprotein, two ABC-transporter components, a putative DNA ligase and a MPA1-family protein. These findings implicate cytochrome synthesis, potassium ion cycling, lipid biosynthesis and transport processes as key components of pH response in S. medicae.     

苜蓿根瘤菌17560细胞膜膜脂组成分析及DGTS合成基因克隆与表达

【目的】分析一株分离自黑龙江省的苜蓿根瘤菌在低磷胁迫及正常磷含量条件下细胞膜脂的组成,并从该菌中克隆和鉴定细胞膜无磷脂二酰基甘油三甲基高丝氨酸(DGTS)合成基因。【方法】分别在不同磷含量的Sherwood基本培养基中进行根瘤菌培养,采用Bligh-Dyer方法提取细胞膜脂,以文献报道Sinorhizobium meliloti(苜蓿中华根瘤菌)菌株1021的脂类图谱和磷脂PE、PG、PC标准品作为参照,利用薄层层析方法分析不同磷含量条件下培养菌株的细胞膜脂组成。根据GenBank中已发表的DGTS合成基因btaA和btaB序列设计引物,以产DGTS菌株基因组DNA为模板,扩增btaA和btaB同源基因,并在E.coil BL21(DE3)表达。同时检测表达菌株是否合成细胞膜无磷脂DGTS以验证基因功能。对菌株17560进行16S rRNA基因序列分析。【结果】分离自黑龙江省的苜蓿根瘤菌17560与Sinorhizobium meliloti的16S rRNA基因序列相似性高达99.8%,但其细胞膜脂组成明显不同于参比菌株Sinorhizobium meliloti 1021的膜脂组成。在低磷胁迫条件下,该菌株的细胞膜脂主要由OL和DGTS等无磷脂组成,但OL的组成明显不同,该菌株含有3种不同类型的鸟氨酸脂(OLs),而参比菌株Sinorhizobium meliloti 1021只含有一种类型的鸟氨酸脂(OL)。在正常磷含量条件下,该菌株的细胞膜脂主要由PE和一种未知的含氨基磷脂组成,PG与PC的含量均较少,而参比菌株Sinorhizobium meliloti 1021的细胞膜脂主要由PE、PG与PC组成。通过PCR扩增从产DGTS菌株17560中获得1 913 bpDNA片段,经序列分析发现其中有两个ORF与菌株Sinorhizobium meliloti 1021的btaA和btaB基因序列相似性均为99%。将该DNA片段克隆于pET-30a(+)得到重组质粒pLH01,转化宿主菌获得表达菌株E.coli BL21(DE3).pLH01,经IPTG诱导后产生相对分子量约为45 kD和25 kD的蛋白。薄层层析验证重组菌细胞膜脂组成,结果表明,表达菌株E.coliBL21(DE3).pLH01可以在IPTG诱导后合成无磷脂DGTS,而转入空载体pET-30a(+)的阴性对照菌株E.coli BL21(DE3).pET-30a(+)则不能合成。【结论】系统发育地位相同的苜蓿根瘤菌株的细胞膜脂组成明显不同;苜蓿根瘤菌的细胞膜组成随培养基中的磷含量不同而变化,低磷胁迫条件下其细胞膜脂主要由OL和DGTS等无磷脂组成;在Sinorhizobium膜脂中首次发现一种未知的氨基磷脂及3种不同类型的鸟氨酸脂(OLs);从菌株17560中克隆获得2个DGTS合成基因btaA和btaB,在大肠杆菌中成功表达,并证实了所表达基因的功能。     

Sequence analysis of the 144-kilobase accessory plasmid pSmeSM11a, isolated from a dominant Sinorhizobium meliloti strain identified during a long-term field release experiment

The genome of Sinorhizobium meliloti type strain Rm1021 consists of three replicons: the chromosome and two megaplasmids, pSymA and pSymB. Additionally, many indigenous S. meliloti strains possess one or more smaller plasmids, which represent the accessory genome of this species. Here we describe the complete nucleotide sequence of an accessory plasmid, designated pSmeSM11a, that was isolated from a dominant indigenous S. meliloti subpopulation in the context of a long-term field release experiment with genetically modified S. meliloti strains. Sequence analysis of plasmid pSmeSM11a revealed that it is 144,170 bp long and has a mean G+C content of 59.5 mol%. Annotation of the sequence resulted in a total of 160 coding sequences. Functional predictions could be made for 43% of the genes, whereas 57% of the genes encode hypothetical or unknown gene products. Two plasmid replication modules, one belonging to the repABC replicon family and the other belonging to the plasmid type A replicator region family, were identified. Plasmid pSmeSM11a contains a mobilization (mob) module composed of the type IV secretion system-related genes traG and traA and a putative mobC gene. A large continuous region that is about 42 kb long is very similar to a corresponding region located on S. meliloti Rm1021 megaplasmid pSymA. Single-base-pair deletions in the homologous regions are responsible for frameshifts that result in nonparalogous coding sequences. Plasmid pSmeSM11a carries additional copies of the nodulation genes nodP and nodQ that are responsible for Nod factor sulfation. Furthermore, a tauD gene encoding a putative taurine dioxygenase was identified on pSmeSM11a. An acdS gene located on pSmeSM11a is the first example of such a gene in S. meliloti. The deduced acdS gene product is able to deaminate 1-aminocyclopropane-1-carboxylate and is proposed to be involved in reducing the phytohormone ethylene, thus influencing nodulation events. The presence of numerous insertion sequences suggests that these elements mediated acquisition of accessory plasmid modules.     

Diversity of group II introns in the genome of <Emphasis Type="Italic"> Sinorhizobium meliloti </Emphasis>strain 1021: splicing and mobility of RmInt1

The number and diversity of known group II introns in eubacteria are continually increasing with the addition of new data from sequencing projects, but the significance of these introns in the evolution of bacterial genomes is unknown. We analyzed the main features of the group II introns present in the genome of the soil microorganism Sinorhizobium meliloti (strain 1021), the nitrogen-fixing symbiont of alfalfa, the DNA sequence of which was recently determined. Strain 1021 harbors three different classes of group II introns: RmInt1, of bacterial class D; SMb2147/SMb21167, which cluster within bacterial class C; and SMa1875, the phylogenetic class of which is uncertain. The group II introns SMb2147/SMb21167 and SMa1875 are widely distributed in S. meliloti, but are present in lower copy numbers than RmInt1. Strain 1021 harbors three copies of RmInt1, which is pSym-specific. Although RmInt1 is spliced in strain 1021, mobility assays suggested that, in contrast to other S. meliloti strains, the genetic background of strain 1021 does not support intron homing events.     

冻融法转化苜蓿中华根瘤菌

对于苜蓿中华根瘤菌转化方法的研究仅限于三亲杂交法和电激转化,本实验首次将冻融法用于转化苜蓿中华根瘤菌。将携带CUS片段并且含有壮观霉素抗性的质粒用冻融法转移至野生型苜蓿中华根瘤菌菌株,得到的抗性克隆用GUS引物进行PCR扩增鉴定。经过计算,冻融法的转化率为2．2×10^5／μg。与传统方法比较,冻融法操作简单,转化过程快速,转化率较高,所需时间较短,转化成本低,是适合用于苜蓿中华根瘤菌的转化方法。     

Functional analysis of Sinorhizobium meliloti genes involved in biotin synthesis and transport

External biotin greatly stimulates bacterial growth and alfalfa root colonization by Sinorhizobium meliloti strain 1021. Several genes involved in responses to plant-derived biotin have been identified in this bacterium, but no genes required for biotin transport are known, and not all loci required for biotin synthesis have been assigned. Searches of the S. meliloti genome database in combination with complementation tests of Escherichia coli biotin auxotrophs indicate that biotin synthesis probably is limited in S. meliloti 1021 by the poor functioning or complete absence of several key genes. Although several open reading frames with significant similarities to genes required for synthesis of biotin in gram-positive and gram-negative bacteria were found, only bioB, bioF, and bioH were demonstrably functional in complementation tests with known E. coli mutants. No sequence or complementation evidence was found for bioA, bioC, bioD, or bioZ. In contrast to other microorganisms, the S. meliloti bioB and bioF genes are not localized in a biotin synthesis operon, but bioB is cotranscribed with two genes coding for ABC transporter-like proteins, designated here bioM and bioN. Mutations in bioM and bioN eliminated growth on alfalfa roots and reduced bacterial capacity to maintain normal intracellular levels of biotin. Taken together, these data suggest that S. meliloti normally grows on exogenous biotin using bioM and bioN to conserve biotin assimilated from external sources.     

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。     

Desiccation responses and survival of Sinorhizobium meliloti USDA 1021 in relation to growth phase, temperature, chloride and sulfate availability

AIMS: To identify physical and physiological conditions that affect the survival of Sinorhizobium meliloti USDA 1021 during desiccation. METHODS AND RESULTS: An assay was developed to study desiccation response of S. meliloti USDA 1021 over a range of environmental conditions. We determined the survival during desiccation in relation to (i) matrices and media, (ii) growth phase, (iii) temperature, and (iv) chloride and sulfate availability. CONCLUSIONS: This study indicates that survival of S. meliloti USDA 1021 during desiccation is enhanced: (i) when cells were dried in the stationary phase, (ii) with increasing drying temperature at an optimum of 37 degrees C, and (iii) during an increase of chloride and sulfate, but not sodium or potassium availability. In addition, we resolved that the best matrix to test survival was nitrocellulose filters. SIGNIFICANCE AND IMPACT OF THE STUDY: The identification of physical and physiological factors that determine the survival during desiccation of S. meliloti USDA 1021 may aid in (i) the strategic development of improved seed inocula, (ii) the isolation, and (iii) the development of rhizobial strains with improved ability to survive desiccation. Furthermore, this work may provide insights into the survival of rhizobia under drought conditions.     

Evidence that the exoH gene of Sinorhizobium meliloti does not appear to influence symbiotic effectiveness with Medicago truncatula 'Jemalong A17'

The purpose of this study was to identify strains of Sinorhizobium meliloti that formed either an effective or completely ineffective symbiosis with Medicago truncatula L. 'Jemalong A17' and, subsequently, to determine whether differences existed between their exoH genes. Sinorhizobium meliloti TII7 and A5 formed an effective and ineffective symbiosis with M. truncatula 'Jemalong A17', respectively. Using a multilocus sequence typing method, both strains were shown to have chromosomes identical with S. meliloti Rm1021 and RCR2011. The 2260-bp segments of DNA stretching from the 3' end of exoI through open reading frames of hypothetical proteins SM_b20952 and SM_b20953 through exoH into the 5' end of exoK in strains TII7 and Rm1021 differed by a single nucleotide at base 127 of the hypothetical protein SM_b20953. However, the derived amino acid sequences of the exoH genes of effective TII7, ineffective A5, and strain Rm1021 were shown to be identical with each other. Therefore, it would seem unlikely that the gene product of exoH is directly involved with the low efficiency of a symbiosis of strain Rm1021 with M. truncatula 'Jemalong A17'. Complementation or complete genome sequence analyses involving strains TII7 and A5 might be useful approaches to investigate the molecular bases for the differential symbiotic response with M. truncatula 'Jemalong A17'.     

Mouse AKR1E1 is an ortholog of pig liver NADPH dependent 1,5-anhydro-D-fructose reductase

In many organisms, glycogen gives rise to 1,5-anhydro-D-fructose (AF), which is reduced to 1,5-anhydro-D-glucitol (AG). AF reductase, which catalyzes the latter reaction, was purified from pig liver, but mouse ortholog has not yet been reported. In the database, aldo-keto reductase family 1, member E1 (AKR1E1) showed highest homology to pig enzyme. We confirmed that cloned AKR1E1 is mouse ortholog based on enzymatic properties of purified recombinant protein.     

Plasmid-associated genes in the model micro-symbiont Sinorhizobium meliloti 1021 affect the growth and development of young rice seedlings

Sinorhizobium meliloti strain 1021 and its closely related strain Rm2011 inhibit rice seedling (Oryza sativa L. cv. Pelde) growth and development under certain rice-growing conditions. Experiments showed that inoculation of seedlings with approximately less than 10 cells of 1021 was sufficient to cause this inhibition. By using a series of plasmid-cured and plasmid-deleted derivatives of Rm2011, it was found that interactions between genes encoded on pSymA, and possibly pSymB, of Rm2011, affected rice growth and development by affecting both/either the plant and/or the bacteria. Further studies found that genes potentially related to indole-3-acetic acid (IAA) synthesis and nitrate metabolism, encoded on pSymA, were involved in rice growth inhibition in Sm1021- and Sm2011-treated rice seedlings. We conclude that the rice growth inhibition by S. meliloti Sm1021 is pSymA-associated and is induced by environmental nitrate.