Recently we reported the molecular cloning and characterization of a novel beta-1,3-xylanase from the marine bacterium Vibrio sp. AX-4 [Kiyohara et al. (2005) Biochem. J. 388, 949-957]. We report here the structural analysis of oligosaccharides generated from beta-1,3-xylan of a siphonous green alga, Caulerpa racemosa var. laete-virens, by the action of beta-1,3-xylanase. The enzyme degraded the polysaccharide producing oligosaccharides with different R(f)s on TLC (EX2-EX5). Sugar component, linkage, and MALDI-TOF-MS analyses revealed that EX2 and EX3 were Xyl-1,3-Xyl and Xyl-1,3-Xyl-1,3-Xyl, respectively. On the other hand, EX4 was a mixture of Glc-1,3-Xyl-1,3-Xyl, Xyl-1,4-Xyl-1,3-Xyl and Xyl-1,3-Xyl-1,4-Xyl, while EX5 was a mixture of tetra-saccharides containing 3-substitued Glc in addition to the same components of EX4. Branching was not likely present in EXOs prepared from the polysaccharide by the enzyme. These results strongly suggest that the C. racemosa beta-1,3-xylan is a linear heteropolysaccharide containing 1,3-Glc and 1,4-Xyl both of which are thought to be located within a beta-1,3-Xyl chain and linked via covalent bonds. This report indicates the usefulness of the enzyme for the structural analysis of beta-1,3-xylan.