Structure and hydrodynamic properties of the extracellular polysaccharide from a mutant strain (RA3W) of Erwinia chrysanthemi RA3

The structure of the extracellular polysaccharide (EPS) produced by Erwinia chrysanthemi strain RA3W, a mutant strain of E. chrysanthemi RA3, has been determined using low pressure size-exclusion and anion-exchange chromatographies, high pH anion-exchange chromatography, glycosyl linkage analysis, and 1D 1H NMR spectroscopy. The polysaccharide is structurally similar, if not identical, to the family of EPS produced by such as E. chrysanthemi strains Ech9, Ech9Sm6, and SR260. The molecular weight of EPS RA3W by ultracentrifugation (sedimentation equilibrium) and light scattering is compared with those of other E. chrysanthami EPSs, as are the viscometric properties.     

Extracellular polysaccharides of modified strains of Erwinia spp.

The structure of the extracellular polysaccharide (EPS) produced by Erwinia chrysanthemi strain A2148 has been determined using low pressure size-exclusion and anion-exchange chromatographies, high pH anion-exchange chromatography, glycosyl-linkage analysis, and 1D 1H NMR spectroscopy. The polysaccharide is structurally similar, if not identical, to the EPS produced by E. chrysanthemi strain A350. A streptomycin-resistant strain of E. chrysanthemi Ech6 (Ech6S(+)) has been generated and has an elevated production of EPS, as does a streptomycin-resistant strain (Ech9Sm6) of E. chrysanthemi Ech9. These modified E. chrysanthemi spp. have been ribotyped and found to be closely related to their parent strains.     

Extracellular polysaccharide of Erwinia chrysanthemi A350 and ribotyping of Erwinia chrysanthemi spp

Erwinia chrysanthemi spp. are gram-negative bacterial phytopathogens causing soft rots in a number of plants. The structure of the extracellular polysaccharide (EPS) produced by the E. chrysanthemi strain A350, which is a lacZ- mutant of the wild type strain 3937, pathogenic to Saintpaulia, has been determined using a combination of chemical and physical techniques including methylation analysis, low-pressure gel-filtration and anion-exchange chromatography, high-pH anion-exchange chromatography, partial acid hydrolysis, mass spectrometry and 1- and 2D NMR spectroscopy. In contrast to the structures of the EPS reported for other strains of E. chrysanthemi, the EPS from strain A350 contains D-GalA, together with L-Rhap and D-Galp in a 1:4:1 ratio. Evidence is presented for the following hexasaccharide repeat unit: [structure: see text] All the Erwinia chrysanthemi spp. studied to date have been analyzed by ribotyping and collated into families, which are consistent with the related structures of their EPS.     

Extracellular polysaccharides of Erwinia futululu,a bacterium associated with a fungal canker disease of Eucalyptus spp

Extracellular polysaccharides (EPSs) produced by an Erwinia spp. associated with a fungal canker disease of Eucalyptus were fractionated into two polysaccharides, one that was identified with that produced by Erwinia stewartii. The other has a similar structure, but with one terminal Glc residue replaced by pyruvic acid to give 4,6-O-[(R)-1-carboxyethylidene)-Galp. Their structures were determined using a combination of chemical and physical techniques including methylation analysis, periodate oxidation, low-pressure gel filtration and anion-exchange chromatographies, high-pH anion-exchange chromatography, mass spectrometry and 1D and 2D 1H NMR spectroscopy. The new polysaccharides, identified as EPS Futululu FF-1 and FF-2, have the following structures:The molecular weights of the polysaccharides range from 1.3-2.1x10(6) and their hydrodynamic properties are those of polydisperse, polyanionic biopolymers with pseudoplastic, non-thixotropic flow characteristics in aqueous solutions.     

Extracellular polysaccharide of Erwinia chrysanthemi CU643.

Erwinia chrysanthemi are gram-negative bacterial phytopathogens causing soft rots in a number of plants. The structure of the extracellular polysaccharide (EPS) produced by E. chrysanthemi strain CU643, pathogenic to Philodendron, has been determined using a combination of chemical and physical techniques including methylation analysis, high- and low-pressure gel-filtration and anion-exchange chromatography, high-pH anion-exchange chromatography, partial acid hydrolysis, mass spectrometry, and 1- and 2-D NMR spectroscopy. In contrast to the structures of the EPS reported for other strains of E. chrysanthemi, the EPS from strain CU643 is a linear polysaccharide containing L-Rhap, D-Galp, and D-GlcAp in the ratio 4:1:1. Evidence is presented for the following hexasaccharide repeat unit: -->3)-beta-D-Galp-(1-->2)-alpha-L-Rhap-(1-->4)-beta-D-GlcAp- (1-->2)-alpha-L- Rhap-(1-->2)-alpha-L-Rhap-(1-->2)-alpha-L-Rhap-(1-->(1 ).     

Hydrodynamic properties of oxidized extracellular polysaccharides from Erwinia chrysanthemi spp

The molecular weights of the native polysaccharides of Erwinia chrysanthemi strains range from 1.8 to 7.1 x 10(6) and their hydrodynamic properties are those of polydisperse, polyanionic biopolymers with pseudoplastic, non-thixotropic flow characteristics in aqueous solutions. The effect on the hydrodynamic properties of the polysaccharides by adding carboxyl groups to increase the charge density is studied, with particular reference to their molecular weight (MW), viscosity and conformation. In general, it is found that periodate oxidation of the extracellular polysaccharides of E. chrysanthemi strains, Ech9Sm6 and Ech6S+, introduces little change in the hydrodynamic properties of the resulting polyaldehydes. However, bromine oxidation at neutral pH of the polyaldehydes results in polycarboxylate biopolymers that show significant reduction in MW and viscosity, but they are still characteristic polyanions.     

Pyruvated galactose and oligosaccharides from Erwinia chrysanthemi Ech6 extracellular polysaccharide

The acidic extracellular polysaccharide of Ech6 was depolymerized by fuming HCl. The pyruvated sugars were isolated and characterized by methods that included a combination of low-pressure gel-filtration and high-pH anion-exchange chromatographies, methylation linkage analyses, mass (GC-MS and MALDI-TOF MS) and 1H NMR (1D and 2D) spectroscopies. The following pyruvated sugars were obtained: 4,6-O-(1-carboxyethylidene)-D-Galp; 4,6-O-(1-carboxyethylidene)- alpha-D-Galp-(1-->4)-beta-D-GlcAp-(1-->3)-D-Galp; 4,6-O-(1-carboxyethylidene)-alpha-D-Galp-(1-->4)-alpha-D-GlcAp- (1-->3)-alpha-D-Galp-(1-->3)-L-Fucp; 4,6-O-(1-carboxyethylidene)-alpha-D-Galp-(1-->4)-beta-D-GlcAp-(1-->3) -alpha-D-Galp-(1-->3)-L-[beta-D-Glcp-(1-->4)]-Fucp. These oligosaccharides present potential haptenes for the development of specific antibodies and confirm the partial structure proposed previously for the extracellular polysaccharide from Erwinia chrysanthemi Ech6 [Yang, B. Y.; Gray, J. S. S.; Montgomery, R. Int. J. Biol. Macromol., 1994, 16, 306-312].     

水稻基腐病细菌毒素的遗传特性和产毒相关的分子标记

[目的]水稻基腐病(Erwinia chrysanthemi pv.zeae)是水稻上重要的细菌病害之一,本论文对该病菌的毒素遗传特性和产毒相关的分子标记进行了研究.[方法]通过化学诱变方法,筛选基腐细菌去质粒的突变体Ech7-mu1;应用RAPD技术,筛选产毒素相关的分子标记.[结果]毒素活性测定结果表明,野生菌Ech7和去质粒菌株Ech7-mu1都能产生毒素.从260条随机引物中,筛选出引物K10,该引物能从不产生毒素的突变株Ech7-4中扩增出大小为2139bp的DNA特异片段,但不能扩增野生菌Ech7,将该片段克隆,测序分析,设计特异引物,在突变体Ech7-4中获得了与毒素产生相关的SCAR分子标记(标记符合率为100%).该基因片段有5个ORFs,其中2个ORFs分别编码NADH-黄素还原酶和N-乙酰转移酶,另外2个不完整的ORFs编码的蛋白分别与Pseudomonas aerginosa(ZP00136947)和Yersinia Pestis(ZP01177873)的抗菌素代谢转运蛋白通透酶(DMT)具有66%和46%的同源率.[结论]水稻基腐细菌毒素的生物合成是由染色体基因编码,与质粒无关.不产生毒素的突变菌株基因突变的位点位于SCAR标记DNA的3'末端.     

A differential medium for the isolation and rapid identification of a plant soft rot pathogen, Erwinia chrysanthemi

A medium was developed for the isolation and differentiation of Erwinia chrysanthemi from other Erwinia spp. based on the production of blue-pigmented indigoidine. The medium, named NGM, consists of nutrient agar supplemented with 1% glycerol, that induces pigment production, and 2 mM MnCl2*4H2O, that further enhances color development. More than fifty E. chrysanthemi strains from six different plant hosts were tested. All tested strains of E. chrysanthemi grew well on the NGM medium, developing dark brownish to blue colonies easily distinguishable from other Erwinia spp. The results indicate that pigment production on the NGM medium is a very stable property and can be used as a phenotypic property to differentiate E. chrysanthemi from other Erwinia spp. In addition, a specific oligonucleotide primer set was designed for the detection of indC, which is involved in indigoidine biosynthesis. All E. chrysanthemi strains tested contained indC as determined by PCR amplification. No amplification was observed with other Erwinia spp. Thus, pigment production of E. chrysanthemi on the NGM medium is consistent with the existence of indC. The NGM medium was used to isolate and identify the causal agent of soft rot lesions of diseased Phalaenopsis orchids from three orchid cultivation areas in Taiwan. The causal agents of Phalaenopsis soft rot were all identified as E. chrysanthemi. The results indicate that the NGM medium is efficient in isolation and identification of E. chrysanthemi from plants with soft rot symptoms and can also be used for epidemiological studies.     

Chemical composition of extracellular polysaccharides of cowpea rhizobia

The extracellular polysaccharides (EPS) of six strains of cowpea rhizobia were examined. The strains (MI50A, M6-7B, IRC253) produced polysaccharides containing glucose, galactose and mannose in a molar ratio of 2:1.1:1, 1:1.3:3.1 and 1:1.3:3.5 respectively. Two strains (513-B and Ez-Aesch) produced polysaccharides containing galactose and mannose in a molar ratio of 2:3. Mannose was the only sugar detected in the EPS of strain IRC291. Pyruvate, acetate, glucuronic acid and galacturonic acid were not detected in any strain.Abbreviations EPS Extracellular polysaccharide - YEMA yeast-extract mannitol agar - YEMB yeast extract mannitol broth     

The development of a conductimetric assay for automated detection of metabolically active soft rot Erwinia spp. in potato tuber peel extracts

Four media were tested for their ability to detect the soft rot potato pathogens Erwinia chrysanthemi (Ech) and Erwinia carotovora ssp. atroseptica (Eca) in potato tubers by means of automated conductance measurements. The specificity of the conductimetric assays was determined by testing a set of different Erwinia spp. and potato-associated saprophytes, including the genera Pseudomonas, Bacillus, Enterobacter and Flavobacterium. All bacteria tested produced conductance responses in Special Peptone Yeast Extract, whereas in minimal medium with L-asparagine only Erwinia spp. and Pseudomonas spp. were able to generate large conductance responses. In minimal medium supplemented with glucose and trimethylamine- N -oxide only Enterobacteriaceae, Erwinia spp. included, generated conductance responses, while with pectate as sole carbon source only Erwinia spp. produced distinct conductance responses. The pectate medium proved to be particularly useful for specific automated conductimetric detection of Erwinia spp. in potato peel extracts. Within 48 h, the detection threshold of the conductimetric assay for Eca varied between 10² and 10³ cfu per ml peel extract at both incubation temperatures of 20° and 26°C. Ech was detected at concentrations of 10⁴–10⁵ or 10³–10⁴ cfu ml^-1 at 20° and 26°C, respectively. To eliminate 'false'-positive reactions in conductimetry caused by Erwinia carotovora ssp. carotovora , results of the conductance measurements have to be confirmed by other techniques, like serology or DNA assays.     

Chromosomal mapping of the pel and cel genes in Erwinia chrysanthemi strain B374

Using the RP4::mini-Mu in vivo cloning technique, van Gijsegem et al. (1985) isolated several pel and cel genes of Erwinia chrysanthemi (Ech) B374 strain. We have localized these genes on the Ech chromosome by co-transfer mapping of MudI1734 insertion mutants and refined the map by co-transposition analysis. This analysis has enabled us to identify another cel gene.     

Polysaccharides production by Rhizobium phaseoli and the typing of their excreted anionic polysaccharides

Abstract The pattern of polysaccharide production amongst strains of Rhizobium phaseoli appear very varied: some strains produce anionic exopolysaccharides (EPS) as major polysaccharides (EPS) as major polymer without any other product, but most strains exhibit greater polysaccharide diversity. Apart from EPS they excrete capsular polysaccharides (CPS) and accumulate poly-β-hydroxybutyric acid (PHB) and/or glycogen in their cells. The latter can then be used as C-sources for further synthesis of EPS and CPS. Some strains are only very poor producers or do not produce at all. Nine strains of R. phaseoli have been analysed and shown to possess the K-36 type of polysaccharide (EPS), as do strains of R. leguminosarum (6 strains) and R. trifolli (9 strains). Three strains of R. phaseoli have been found to possess the K-87 type of polysaccharide and types K-38 and K-44 polysaccharides have only been found in their own type strains.     

Structure of a polysaccharide from a Rhizobium species containing 2-deoxy-beta-D-arabino-hexuronic acid.

The structure of the extracellular polysaccharide (EPS) produced by the Rhizobium sp. B strain isolated from atypical nodules on alfalfa has been determined using a combination of chemical and physical techniques (methylation analysis, high pH-anion exchange chromatography (HPAEC), mass spectrometry and 1-D and 2-D NMR spectroscopy). As opposed to the EPS from other strains of Rhizobium, the EPS from the sp. B strain contains D-Glc together with L-Rha and 2-deoxy-D-arabino-hexuronic acid. It is a polymer of a repeating unit having the following structure: --> 4)-beta-D-Glcp-(1 --> 4)-alpha-L-Rhap -(1 --> 3)-beta-D-Glcp-(1 --> 4)-2-deoxy-beta-D-GlcpA-(1 -->. The polysaccharide also contains 0.6 O-acetyl groups per sugar which have not been located.     

淫羊藿多糖的分离纯化及结构初步分析

从淫羊藿中提取多糖并鉴定其初步结构和单糖组成.采用超声-水提醇沉法提取粗多糖、Sevag法去蛋白、DEAE-52纤维素及Sephadex G-100柱层析法纯化得到淫羊藿多糖EPSⅠ-1和EPSⅡ-1.应用紫外光谱法和红外光谱法对其结构做初步分析.采用高效液相色谱法(HPLC)测定其单糖组成及摩尔比.均一的EPSⅠ-1和EPSⅡ-1多糖在紫外和红外中具有多糖的特征吸收峰,组成中含有吡喃环结构;EPSⅠ-1的单糖组成为鼠李糖和葡萄糖,摩尔比为1:1.13;EPSⅡ-1的单糖组成为果糖、葡萄糖和一个不确定的糖,摩尔比为1:1.91.有效地分离纯化了淫羊藿多糖,这为淫羊藿多糖的广泛应用奠定了实验基础.     

Diverse Exopolysaccharide Producing Bacteria Isolated from Milled Sugarcane: Implications for Cane Spoilage and Sucrose Yield

Bacterial deterioration of sugarcane during harvesting and processing is correlated with significant loss of sucrose yield and the accumulation of bacterial polysaccharides. Dextran, a homoglucan produced by Leuconostoc mesenteroides, has been cited as the primary polysaccharide associated with sugarcane deterioration. A culture-based approach was used to isolate extracellular polysaccharide (EPS) producing bacterial strains from milled sugarcane stalks. Ribosomal RNA sequencing analysis grouped 25 isolates into 4 genera. This study identified 2 bacterial genera not previously associated with EPS production or sucrose degradation. All isolates produced polysaccharide when grown in the presence of sucrose. Monosaccharide analysis of purified polymers by Gas Chromatography revealed 17 EPSs consisting solely of glucose (homoglucans), while the remainder contained traces of mannose or fructose. Dextranase treatment of polysaccharides yielded full digestion profiles for only 11 extracts. Incomplete hydrolysis profiles of the remaining polysaccharides suggest the release of longer oligosaccharides which may interfere with sucrose crystal formation.     

Genetic Transfer of Episomic Elements Among Erwinia Species and Other Enterobacteria: F′lac+

The episomic element F'lac(+) was transferred, probably by conjugation, from Escherichia coli to Lac(-) strains of Erwinia herbicola, Erwinia amylovora, and Erwinia chrysanthemi (but not to several other Erwinia spp. In preliminary trials). The lac genes in the exconjugants of the Erwinia spp. showed varying degrees of stability depending on the strain (stable in E. herbicola strains Y46 and Y74 and E. amylovora strain EA178, but markedly unstable in E. chrysanthemi strain EC16). The lac genes and the sex factor (F) were eliminated from the exconjugants by treatment with acridine orange, thus suggesting that both lac and F are not integrated in the Erwinia exconjugants. All of the tested Lac(+) exconjugants of E. herbicola strains Y46 and Y74 and E. amylovora strain EA178, but not of E. chrysanthemi strain EC 16, were sensitive to the F-specific phage M13. The heterogenotes (which harbored F'lac(+)) of E. herbicola strains Y46 and Y74, E. amylovora strain EA178, and E. chrysanthemi strain EC16 were able to transfer lac genes by conjugation to strains of E. herbicola, E. amylovora, E. chrysanthemi, Escherichia coli, and Shigella dysenteriae. The frequency of such transfer from Lac(+) exconjugants of Erwinia spp. was comparable to that achieved by using E. coli F'lac(+) as donors, thus indicating the stability, expression, and restriction-and-modification properties of the sex factor (F) in Erwinia spp.     

Polysaccharides from Extremophilic Microorganisms

Several marine thermophilic strains were analyzed for exopolysaccharide production. The screening process revealed that a significant number of thermophilic microorganisms were able to produce biopolymers, and some of them also revealed interesting chemical compositions. We have identified four new polysaccharides from thermophilic marine bacteria, with complex primary structures and with different repetitive units: a galacto-mannane type from strain number 4004 and mannane type for the other strains. The thermophilic Bacillus thermantarcticus produces two exocellular polysaccharides (EPS 1, EPS 2) that give the colonies a typical mucous character. The exopolysaccharide fraction was produced with all substrates assayed, although a higher yield 400 mg liter(-1) was obtained with mannose as carbon and energy source. NMR spectra confirmed that EPS 1 was a heteropolysaccharide of which the repeating unit was constituted by four different alpha-D-mannoses and three different beta-D-glucoses. It seems to be close to some xantan polymers. EPS 2 was a mannan. Four different alpha-D-mannoses were found as the repeating unit. Production and chemical studies of biopolymers produced by halophilic archaea, Haloarcula species were also reported.     

Three exopolysaccharides of the beta-(1-->6)-D-glucan type and a beta-(1-->3;1-->6)-D-glucan produced by strains of Botryosphaeria rhodina isolated from rotting tropical fruit

Four exopolysaccharides (EPS) obtained from Botryosphaeria rhodina strains isolated from rotting tropical fruit (graviola, mango, pinha, and orange) grown on sucrose were purified on Sepharose CL-4B. Total acid hydrolysis of each EPS yielded only glucose. Data from methylation analysis and (13)C NMR spectroscopy indicated that the EPS from the graviola isolate consisted of a main chain of glucopyranosyl (1-->3) linkages substituted at O-6 as shown in the putative structure below: [carbohydrate structure: see text]. The EPS of the other fungal isolates consisted of a linear chain of (1-->6)-linked glucopyranosyl residues of the following structure: [carbohydrate structure: see text]. FTIR spectra showed one band at 891 cm(-1), and (13)C NMR spectroscopy showed that all glucosidic linkages were of the beta-configuration. Dye-inclusion studies with Congo Red indicated that each EPS existed in a triple-helix conformational state. beta-(1-->6)-d-Glucans produced as exocellular polysaccharides by fungi are uncommon.