Tamarind seed polysaccharide (TSP) is a neutral water-soluble galactoxyloglucan isolated from the seed kernel of Tamarindus indica with average molecular weight (Mw) 600-800 kDa. The high viscosity of TSP slows solubilisation, and the absence of charged substituent hinders the formation of electrostatic interactions with biomolecules. TSP was sulphated in a one-step process using dimethylformamide as a solvent, and sulphur trioxide-pyridine complex as a sulphating reagent. Studies of chemical structure, molecular weight distribution and viscosity were conducted to characterise the synthesised products. The sulphation degree was established by conductimetric titration; the sulphate group distribution was studied by NMR spectroscopy and liquid chromatography-mass spectrometry, and sulphated TSP oligomers were obtained by enzymatic degradation with cellulase and/or xyloglucanase. Sulphated products showed higher solubility than TSP, Mws in the range of 700-1000 kDa, a sulphation degree of two to four per subunit and pseudoplastic behaviour. A preliminary study of mucoadhesion revealed the unexpected interaction of S-TSP with mucin, providing a route by which sulphated TSP interactions with biomolecules may be influenced.
Keywords: LC-MS; NMR; enzymatic hydrolysis; molecular weight; structural characterization; sulphated polysaccharide; tamarind seed polysaccharide; viscosity.