Development and trifoliin A-binding ability of the capsule of Rhizobium trifolii

The age-dependent lectin-binding ability of Rhizobium trifolii 0403 capsular polysaccharide (CPS) was examined by following the development of the capsule and its ability to interact with the white clover lectin trifoliin A. Bacteria grown on agar plates for 3, 5, 7, 14, and 21 days were examined by electron microscopy and immunofluorescence microscopy with antibodies prepared against either R. trifolii 0403 CPS or trifoliin A after pretreatment with the lectin. The capsule began to develop at one pole by day 3 and completely surrounded the cells in cultures incubated for 5 days or longer. The capsular polysaccharide on cells cultured for 3 and 5 days was completely reactive with trifoliin A, became noticeably less reactive by day 7, and was only reactive with the lectin at one pole of a few cells after that time. The quantity and location of lectin receptors on bacteria of different ages directly correlated with their attachment in short-term clover root hair-binding studies. Cells from 3- or 21-day-old cultures attached almost exclusively in a polar fashion, whereas cells grown for 5 days attached to root hairs randomly and in the highest numbers. CPS isolated from a 5-day-old culture had higher lectin-binding ability than CPS from 3- and 7-day-old cultures, whereas the CPS from a 14-day-old culture had the lowest. Chemical analyses of the isolated CPS showed changes in the levels of uronic acids (as glucuronic acid), pyruvate, and O-acetyl substitutions with culture age, but the neutral sugar composition remained relatively constant. These results provide evidence that the age-dependent distribution of lectin receptors dictates the level and orientation of attachments of R. trifolii 0403 to clover root hairs.

[1]  D. Wright Experimental Microbial Ecology , 1983 .

[2]  J. Sherwood,et al.  Alteration of the Trifoliin A-Binding Capsule of Rhizobium trifolii 0403 by Enzymes Released from Clover Roots , 1982, Applied and environmental microbiology.

[3]  J. Vasse,et al.  Exostructures of Rhizobium meliloti , 1982 .

[4]  F. Dazzo,et al.  Growth-phase-dependent immunodeterminants of Rhizobium trifolii lipopolysaccharide which bind trifoliin A, a white clover lectin , 1981, Journal of bacteriology.

[5]  W. Brill,et al.  Agglutinin from Alfalfa Necessary for Binding and Nodulation by Rhizobium meliloti , 1981, Science.

[6]  Y. Maruyama,et al.  Involvement of Lectins in Rhizobium-Pea Recognition , 1981 .

[7]  J W Costerton,et al.  The bacterial glycocalyx in nature and disease. , 1981, Annual review of microbiology.

[8]  F. Dazzo,et al.  Presence of trifoliin A, a Rhizobium-binding lectin, in clover root exudate. , 1981, Journal of supramolecular structure and cellular biochemistry.

[9]  W. Brill,et al.  Host recognition in the Rhizobium-soybean symbiosis. , 1980, Plant physiology.

[10]  A. Mort,et al.  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 . , 1980, Plant physiology.

[11]  T. Bhuvaneswari,et al.  Role of lectins in plant--microorganism interactions. IV. Ultrastructural localization of soybean lectin binding sites of Rhizobium japonicum. , 1978, Canadian journal of microbiology.

[12]  W. Brill,et al.  Trifolin: a Rhizobium recognition protein from white clover. , 1978, Biochimica et biophysica acta.

[13]  E. L. Schmidt,et al.  Polarity in the exponential-phase Rhizobium japonicum cell. , 1977, Canadian journal of microbiology.

[14]  M. Bayer,et al.  Polysaccharide capsule of Escherichia coli: microscope study of its size, structure, and sites of synthesis , 1977, Journal of bacteriology.

[15]  F. Dazzo,et al.  Cross-reactive antigens and lectin as determinants of symbiotic specificity in the Rhizobium-clover association , 1975 .

[16]  J. Saavedra,et al.  Lectins: A Possible Basis for Specificity in the Rhizobium—Legume Root Nodule Symbiosis , 1974, Science.

[17]  N. Blumenkrantz,et al.  New method for quantitative determination of uronic acids. , 1973, Analytical biochemistry.

[18]  J. Clamp,et al.  The determination of carbohydrate in biological materials by gas-liquid chromatography. , 1971, Methods of biochemical analysis.

[19]  F. Smith,et al.  COLORIMETRIC METHOD FOR DETER-MINATION OF SUGAR AND RELATED SUBSTANCE , 1956 .