CHARACTERIZATION OF FRUCTAN OLIGOMERS FROM SPECIES OF THE GENUS ALLIUM L

Storage tissue of leaf bases from several species of the genus Allium [A. cepa L. var. cepa (onion, 6 cvs.), A. cepa L. var, ascalonicum (sh allot, 7 cvs.), A. ampeloprasum L. var, porrum (leek, 3 cvs.), A. scho enoprasum L. (chives), A. sativum L. (garlic), A. fistulosum L. (Japan ese bunching onion/Welsh onion), A. tuberosum Rottl. ex, spr. (Chinese chives/Nira), and other species] were analyzed to determine their wat er soluble carbohydrate composition. The Allium species analyzed can b e divided into three groups according to their fructan profiles: 1. Th ose with relatively high amounts of larger fructan polymers, 2. Those with relatively high amounts of small fructan polymers up to a degree of polymerization of about Ij, and 3. Those with both large and small fructan polymers. Four major fructan series with exclusively (2 --> 1) fructosyl-fructose linkages have been characterized that are typical of those Allium species containing small fructan polymers. They are: 1 . an inulin series with the general formula: G-1,2-F-1, (2-F-1)(n),2-F (G-1,2-F = sucrose), 2. a neokestose-based series with chain elongati on only at the glucose end of the original sucrose molecule: F-2, (1-F -2)(m), 1-F-2, 6-G-1, 2-F 3. a neokestose-based series with elongation from both sides of the sucrose: F-2, (1-F-2)(m),1-F-2,6-G-1,2-F-1, (2 -F-1)(n),2-F and 4. an inulo-n-ose series without a terminal glucose F -1,(2-F-1)(n),2-F. While the first three fructan series were present i n relatively high concentrations in all samples with high amounts of s mall fructans, the inulo-n-ose series was detectable in most samples, but in varying concentrations.