Structural analysis of the capsular polysaccharide from Sinorhizobium fredii HWG35

We have determined the structure of a capsular polysaccharide from Sinorhizobium fredii HWG35. This polysaccharide was isolated following the standard protocols applied for lipopolysaccharide isolation. On the basis of monosaccharide analysis, methylation analysis, mass spectrometric analysis, one-dimensional (1)H and (13)C NMR, and two-dimensional NMR experiments, the structure was shown to consist of a polymer having the following disaccharide repeating unit: -->6)-2,4-di-O-methyl-alpha-d-Galp-(1-->4)-beta-d-GlcpA-(1-->. Strain HWG35 produces a capsular polysaccharide that does not show the structural motif (sugar-Kdx) observed in those S. fredii strains that, while effective with Asiatic soybean cultivars, are unable to form nitrogen-fixing nodules with American soybean cultivars. Instead, the structure of the capsular polysaccharide of S. fredii HWG35 is in line with those produced by strains HH303 (rhamnose and galacturonic acid) and B33 (4-O-methylglucose-3-O-methylglucuronic acid), two S. fredii strains that form nitrogen-fixing nodules with both groups of soybean cultivars. Hence, in these three strains that effectively nodulate American soybean cultivars, the repeating unit of the capsular polysaccharide is composed of two hexoses, one neutral (methylgalactose, rhamnose, or methylglucose) and the other acidic (glucuronic, galacturonic, or methylglucuronic acid).     

Modified Fluorescent Technique, Using Rhodamine, for Studies of Rhizobium japonicum-Soybean Symbiosis

Rhodamine-conjugated capsular polysaccharides isolated from Rhizobium japonicum 61A76NS were used to examine binding between the labeled polysaccharides and soybean roots. Fluorescein-labeled polysaccharides were not satisfactory because soybean root hairs autofluoresce in the fluorescein region.     

Role of lectins in plant--microorganism interactions. IV. Ultrastructural localization of soybean lectin binding sites of Rhizobium japonicum

The binding of purified, ferritin-labeled soybean seed lectin to the cell surfaces of Rhizobium japonicum 31 lb 138 has been examined by whole mount, thin section, and freeze-etch electron microscopy. The ferritin-labeled lectin binds in a biochemically specific manner to the capsular material of this bacterium. The lectin does not bind to the outer membranes of the cells or to flagella. Labeled lectin binds to sites throughout the capsular structure, although the density of labeling is somewhat greater on the outer surface of the capsule. Some cells appear to be partially encapsulated. Preservation of the capsular material proved difficult, and methods for retaining most of the capsular material were developed.     

Localization and partial characterization of soybean lectin-binding polysaccharide of Rhizobium japonicum.

Immunoelectron microscopy was combined with partial characterization of isolated exopolysaccharide to study binding of soybean lectin by Rhizobium japonicum strain USDA 138. Lectin-binding activity resided in two forms of exopolysaccharide produced during growth: an apparently very high-molecular-weight capsular form and a lower-molecular-weight diffusible form. At low-speed centrifugation, the capsular form cosedimented with cells to form a viscous, white, cell-gel complex which was not diffusible in 1% agar, and the diffusible form remained in the cell-free supernatant. Electron microscopic observation of the cell-gel complex after labeling with soybean lectin-ferritin conjugate revealed that capsular polysaccharides, frequently attached to one end of the cells, were receptors for lectin. The outer membrane of the cell bound no lectin. Various preparations of exopolysaccharide isolated from the culture supernatant were tested for lectin binding, interaction with homologous somatic antigen, and the presence of 2-keto-3-deoxyoctonate and were chromatographed in Sepharose 4B and 6B gel beds. Lectin binding was restricted to a polysaccharide component designated as lectin-binding polysaccharide. This polysaccharide, as present in the cell-free culture supernatant, was a diffusible acidic polysaccharide devoid of 2-keto-3-deoxyoctonate, with a molecular weight of 2 X 10(6) to 5 X 10(6). It was concluded that the soybean lectin-binding component of R. japonicum is an extracellular polysaccharide and not a lipopolysaccharide and that the diffusible lectin-binding polysaccharide probably differs from the very high-molecular-weight lectin-binding polysaccharide of the loose capsule (slime) only in the degree of polymerization.     

Production of capsular polysaccharide of Streptococcus pneumoniae type 14 and its purification by affinity chromatography

We describe a rapid and efficient method for producing the capsular polysaccharide of Streptococcus pneumoniae by fermentation on tryptic soy broth and purification of this compound by using immobilized soybean lectin as an affinity adsorbent. In principle, the same strategy can be used to produce purified capsular polysaccharides from other streptococcal serotypes by selecting the appropriate lectin adsorbents.     

Nodulation of soybean byRhizobium japonicum mutants with altered capsule synthesis

Spontaneous mutants with altered capsule synthesis were isolated from a marked strain of the symbiont,Rhizobium japonicum. Differential centrifugation was used to enrich serially for mutants incapable of forming capsules. The desired mutants were detected by altered colony morphology and altered ability to bind host plant lectin. Three mutants failed to form detectable capsules at any growth phase when cultured in vitro or in association with the host (soybean,Glycine max (L.) Merr.) roots. These mutants were all capable of nodulating and attaching to soybean roots, indicating that the presence of a capsule physically surrounding the bacterium is not required for attachment or for infection and nodulation. Nodulation by several of the mutants was linearly proportional to the amount of acidic exopolysaccharide that they released into the culture medium during the exponential growth phase, indicating that such polysaccharide synthesis is important and perhaps required for nodulation. Two of the mutants appeared to synthesize normal lectin-binding capsules when cultured in association with host roots, but not when cultured in vitro. Nodulation by these mutants appeared to depend on how rapidly after inoculation they synthesized capsular polysaccharide.Abbreviations CPS capsular polysaccharide - EPS exopolysaccharide - FITC fluorescein isothiocyanate Contribution No. 719 of the C.F. Kettering Research Laboratory     

Extracellular polysaccharide production by Klebsiella pneumoniae and its relationship to virulence

Klebsiella pneumoniae serotype 1 and serotype 2 and their capsular variants were examined for production of cell-associated capsular polysaccharides and extracellular capsular polysaccharides. The virulence of these organisms in experimental animals was examined via intraperitoneal injection in mice and transtracheal inoculation into the lungs of rats. It was found that the production of either polysaccharide component correlated with the observed virulence. The extracellular polysaccharides were purified by ethanol precipitation, electrodialysis, extraction with quaternary ammonium salts, and gel filtration. These purification steps allowed for the separation and purification of both the extracellular lipopolysaccharide and the extracellular capsular polysaccharide. Purified extracellular capsular polysaccharide and extracellular lipopolysaccharide were co-injected with K. pneumoniae intraperitoneally into mice to determine if either of these substances would produce an effect on the natural course of infection in these animals. These studies showed that only purified extracellular lipopolysaccharide enhanced the virulence of K. pneumoniae when co-injected into mice, and this virulence enhancement correlated with the content of extracellular lipopolysaccharide, but not extracellular capsular polysaccharide in mixtures of these polysaccharides. Saponification of K. pneumoniae serotype 1 extracellular polysaccharides significantly decreased their virulence-enhancing capabilities in mice, further suggesting that extracellular lipopolysaccharide may play a role in these infections.     

Production of Capsular Polysaccharide of Streptococcus pneumoniae Type 14 and Its Purification by Affinity Chromatography

We describe a rapid and efficient method for producing the capsular polysaccharide of Streptococcus pneumoniae by fermentation on tryptic soy broth and purification of this compound by using immobilized soybean lectin as an affinity adsorbent. In principle, the same strategy can be used to produce purified capsular polysaccharides from other streptococcal serotypes by selecting the appropriate lectin adsorbents.     

Composition of the Capsular and Extracellular Polysaccharides of Rhizobium japonicum: CHANGES WITH CULTURE AGE AND CORRELATIONS WITH BINDING OF SOYBEAN SEED LECTIN TO THE BACTERIA

The chemical compositions of the capsular and extracellular polysaccharides of two strains of Rhizobium japonicum (311b 138 and 110) have been determined and correlated as a function of culture age with the ability of the bacteria from which they were obtained to bind soybean seed lectin.     

The toxicity of Bacteroides thetaiotaomicron cell-surface antigens to chicken embryos.

The toxicity of B. thetaiotaomicron lipopolysaccharides and capsular antigen to 11-day-old chicken embryos was examined. CELD50 (chicken embryo LD50) of these preparations were determined. All examined preparations showed the lethal activity for chicken embryos. The toxicity of lipopolysaccharides was much higher than the toxicity of capsular antigen.     

Preparative purification of soybean agglutinin by affinity chromatography and its immobilization for polysaccharide isolation

Optimized procedures for the affinity purification of soybean agglutinin (SBA) from soybean flour, and its further immobilization, were developed. Lectin purification on galactosyl-Sepharose yielded 44.5+/-3.5 mg of pure SBA/50 g of flour. To prepare SBA adsorbents, the lectin was immobilized onto 1-cyano-4-(dimethylamino)pyridinium tetrafluoroborate (CDAP) activated Sepharose with high yields (77%). Feasibility of the use of this improved SBA adsorbent for affinity purification of Streptococcus pneumoniae capsular polysaccharides from strain 14 (CPS-14) at laboratory scale was demonstrated. Using SBA-Sepharose adsorbent (7.0 mg lectin per ml), amounts of 6.3 mg of pure CPS-14 per cycle were produced, the adsorbent being reused up to four times without loss of capacity.     

Study of theRhizobium japonicum-soybean symbiosis

Summary Capsular polysaccharides were isolated fromRhizobium japonicum (61A76NS) and conjugated to a fluorescent dye to determine if the specificity in theRhizobium japonicum-soybean symbiosis is expressed by a component (lectin) located on soybean roots which binds to the sugars of the bacterial capsules.The conjugated Fraction A capsular polysaccharides ofR. japonicum bound only to the root hair tips of soybean seedlings. The polysaccharide would not bind specifically to the roots of clover or alfalfa seedlings. Rhodamine conjugated polysaccharides ofR. japonicum could be inhibited from binding to soybean root hairs by the addition of N-acetylgalactosamine or galactose, effective hapten inhibitors of this type of binding. This is the first report of hapten-reversible binding of an isolated rhizobial component to soybean root hairs, the differentiated epidermal cells which are subsequently infected by this nitrogen-fixing symbiont.Paper number6046 of the Journal Series of the North Carolina Agricultural Research Service, Raleigh, North Carolina.     

Structure and Biological Roles of Sinorhizobium fredii HH103 Exopolysaccharide

Here we report that the structure of the Sinorhizobium fredii HH103 exopolysaccharide (EPS) is composed of glucose, galactose, glucuronic acid, pyruvic acid, in the ratios 5∶2∶2∶1 and is partially acetylated. A S. fredii HH103 exoA mutant (SVQ530), unable to produce EPS, not only forms nitrogen fixing nodules with soybean but also shows increased competitive capacity for nodule occupancy. Mutant SVQ530 is, however, less competitive to nodulate Vigna unguiculata. Biofilm formation was reduced in mutant SVQ530 but increased in an EPS overproducing mutant. Mutant SVQ530 was impaired in surface motility and showed higher osmosensitivity compared to its wild type strain in media containing 50 mM NaCl or 5% (w/v) sucrose. Neither S. fredii HH103 nor 41 other S. fredii strains were recognized by soybean lectin (SBL). S. fredii HH103 mutants affected in exopolysaccharides (EPS), lipopolysaccharides (LPS), cyclic glucans (CG) or capsular polysaccharides (KPS) were not significantly impaired in their soybean-root attachment capacity, suggesting that these surface polysaccharides might not be relevant in early attachment to soybean roots. These results also indicate that the molecular mechanisms involved in S. fredii attachment to soybean roots might be different to those operating in Bradyrhizobium japonicum.     

Induction of Resistance in Mice by the Capsular Polysaccharide Antigens of Staphylococcus aureus

Mice actively immunized with capsular polysaccharides extracted from capsular type strains A, B, C, and D, determined by the serum-soft agar technique, were protected against lethal infection by homologous strains, but no animals survived infection by heterologous substance immunization even with at high doses. Passive protective antibody in rabbit antisera prepared using these strains was absorbed out only by homologous capsular polysaccharide in mice. These results indicated that resistance was specific for capsular polysaccharide. The substance contained mainly neutral sugar, small amounts of hexosamine, methyl-pentose, and phosphate although these amounts varied depending on the capsular types strains.     

Virulent and avirulent encapsulated variants of Staphyococcus aureus

There are at least two serologically distinct capsular types of coagulase-positive Staphylococcus aureus. Until now, unequivocal evidence for encapsulation of the Smith diffuse variant was lacking. However, the data presented in this paper provide definitive details of encapsulation of the Smith strain. A marked difference in ld(50) values for the two serologically distinct capsular types of S. aureus was demonstrated. The paradoxical behavior of these two strains suggested that the host was resistant to one and was susceptible to the other. A survey of the carriage incidence in mice for staphylococci and staphylococcal capsular antibodies disclosed the presence of staphylococci and capsular antibodies in these animals. The capsular antibodies detected were reactive against only one of the capsular types of S. aureus. None of the sera from the mice surveyed possessed capsular antibodies against the Smith diffuse variant, but the average incidence for the capsular antibodies against the wound mucoid type was 46%. We postulated that the susceptibility of the mice to the Smith diffuse variant was caused by the absence of protective, type-specific capsular antibodies. Conversely, the resistance of the mice to the wound mucoid staphylococci may have been a result of the presence of type-specific capsular antibodies.     

不同品种大豆(Glycine max L.)对中国菟丝子(Cuscuta chinensis)寄生的生理生态响应

田间条件下观察了中国菟丝子危害14个大豆品种的差异,随后选择受中国菟丝子危害差异显著的3个品种与中国菟丝子混种,探讨田间条件下中国菟丝子危害这3个品种大豆植株的生理生态效应。实验显示:在寄生关系确立前,受危害重的大豆品种植株的光合色素含量和净光合速率、总黄酮和植株全氮的含量比受危害轻的品种高,而可溶性糖的含量则相反。在寄生关系确立后,危害重的品种植株光合色素含量和净光合速率、总黄酮和植株全氮的含量下降,可溶性糖含量则是危害程度愈重,升幅愈大。在相同栽培条件下,中国菟丝子生物量为:危害重的大豆植株>危害轻的大豆品种植株,同时受危害重的大豆品种植株的生物量下降也大,但中国菟丝子生物量与寄生大豆植株生物量下降量的百分比为:受危害重的品种<受危害轻的品种。结果表明:中国菟丝子在大豆品种间的寄生差异与大豆品种光合作用、次生代谢、同化物质合成和氮含量指标的变化有关,受中国菟丝子影响后大豆品种间的这些生理指标的差异进一步扩大。     

Sequence diversity within the capsular genes of Streptococcus pneumoniae serogroup 6 and 19

The main virulence factor of Streptococcus pneumoniae is the capsule. The polysaccharides comprising this capsule are encoded by approximately 15 genes and differences in these genes result in different serotypes. The aim of this study was to investigate the sequence diversity of the capsular genes of serotypes 6A, 6B, 6C, 19A and 19F and to explore a possible effect of vaccination on variation and distribution of these serotypes in the Netherlands. The complete capsular gene locus was sequenced for 25 serogroup 6 and for 20 serogroup 19 isolates. If one or more genes varied in 10 or more base pairs from the reference sequence, it was designated as a capsular subtype. Allele-specific PCRs and specific gene sequencing of highly variable capsular genes were performed on 184 serogroup 6 and 195 serogroup 19 isolates to identify capsular subtypes. This revealed the presence of 6, 3 and a single capsular subtype within serotypes 6A, 6B and 6C, respectively. The serotype 19A and 19F isolates comprised 3 and 4 capsular subtypes, respectively. For serogroup 6, the genetic background, as determined by multi locus sequence typing (MLST) and multiple-locus variable number of tandem repeat analysis (MLVA), seemed to be closely related to the capsular subtypes, but this was less pronounced for serogroup 19 isolates. The data also suggest shifts in the occurrence of capsular subtypes within serotype 6A and 19A after introduction of the 7-valent pneumococcal vaccine. The shifts within these non-vaccine serotypes might indicate that these capsular subtypes are filling the niche of the vaccine serotypes. In conclusion, there is considerable DNA sequence variation of the capsular genes within pneumococcal serogroup 6 and 19. Such changes may result in altered polysaccharides or in strains that produce more capsular polysaccharides. Consequently, these altered capsules may be less sensitive for vaccine induced immunity.     

Application of flow cytometry to the study of antiphagocytic properties of Klebsiella pneumoniae capsular polysaccharide

Abstract We used flow cytometry to compare the effects of whole cells and capsular polysaccharides of Klebsiella pneumoniae on the phagocytic ability ot polymorphonuclear leukocytes. Our results showed a light descrease in phagocytic activity in the presence of capsular polysaccharides, but a marked decrease with whole cells. Our findings suggest that the resistance to phagocytosis in these microorganisms is not due exclusively to their capsule, as claimed by other authors.     

Application of genistein to inocula and soil to overcome low spring soil temperature inhibition of soybean nodulation and nitrogen fixation

In the soybean (Glycine max. (L.) Merr)– Bradyrhizobium japonicum symbiosis, suboptimal root zone temperatures (RZTs) slow nodule development by disruption of the interorganismal signal exchange between the host plant and bradyrhizobia. Two field experiments were conducted on two adjacent sites in 1994 to determine whether the incubation of B. japonicum with genistein prior to application as an inoculant, or genistein, without B. japonicum, applied onto seeds in the furrow at the time of planting, increased soybean nodulation, N fixation, and total N yield. The results of these experiments indicated that genistein application increased nodule number and nodule dry matter per plant and hastened the onset of N fixation during the early portion of the soybean growing season, when the soils were still cool. Because these variables were improved, total fixed. N, fixed N as a percentage of total plant N, and N yield increased due to genistein application. The interaction between genistein application and soybean cultivars indicated that genistein application was more effective on N-stressed plants.     

Dorsett-morse soybean collection trip to East Asia: 50 year retrospective

This paper is devoted to the analysis of the 4,451 soybean (Glycine max,) accessions collected by P. H. Dorsett and W. J. Morse during their plant exploration trip to east Asia 1929–1931. Until about 1950 the collection was used primarily for the development of vegetable type soybean cultivars. During this period many of the accessions were lost. Today only 945 of the original 4,451 accessions are available in the United States soybean germplasm collection. From the 1950s to the 1980s, as soybean production increased in the United States, so did plant pathogen problems. The Dorsett-Morse soybean accessions have been extremely valuable to plant pathologists and breeders as sources of resistance to certain pathogens. Individual genotypes in the collection have been used for genetic studies on morphological, physiological and biochemical traits. Due to the development and distribution of higher-yielding soybean cultivars, farmers in east Asia are no longer growing lower-yielding landraces. Although these landraces are now extinct in east Asia, many were collected by Dorsett and Morse and are preserved in the United States soybean collection. Over the years, the Dorsett-Morse collection has increased in value and will be as useful to soybean scientists in the future as it has been in its first 50 yr of existence.