Structure-Activity Relationships for Xyloglucan Oligosaccharides with Antiauxin Activity 1

AUTOR(ES)

McDougall, Gordon J.

RESUMO

This work was designed to investigate the structural features required for a branched xyloglucan nonasaccharide (XG9; composition: glucose4xylose3galactose1fucose1) to exhibit anti-auxin activity in the pea (Pisum sativum L.) stem segment straight-growth bioassay. Oligosaccharides were prepared by cellulase-catalyzed hydrolysis of Rosa xyloglucan, and tested for auxin antagonism. The quantitatively major hepta-, octa-, and decasaccharides (XG7, XG8, and XG10) showed no antiauxin activity at the concentrations tested and did not interfere with the antiauxin effect of 10−9 molar XG9 when coincubated at equimolar concentrations. The results indicate that the XG9-recognition system in pea stem segments is highly discriminating. A terminal α-l-fucose residue is essential for the antiauxin activity of XG9 and a neighboring terminal β-d-galactose residue can abolish the activity; possible reasons for the effect of the galactose residue are discussed. A sample of XG9 extensively purified by gel-permeation chromatography followed by paper chromatography in two solvent systems still exhibited antiauxin activity with a concentration optimum around 10−9 molar. This diminishes the likelihood that the antiauxin activity reported for previous nonsaccharide preparations was due to a compound other than XG9.

Documentos Relacionados

• Structure–Activity Relationships and Quantitative Structure–Activity Relationships for Breast Cancer Resistance Protein (ABCG2)
• Semisynthetic Coumermycins: Structure-Activity Relationships
• Structure-activity relationships of the fluoroquinolones.
• Structure-activity relationships of new antiviral compounds.
• Structure-Activity Relationships in Microbial Transformation of Phenols