The present invention relates to a novel Enterobacter sp. strain SSYL deposited under accession number KCTC 0687BP isolated from the root bark of Chinese elm, which produces immunostimulating exopolysaccharides with anticancer activity, a process for preparing the exopolysaccharides by fermenting the said microorganism in a culture medium, exopolysaccharides prepared by the process and their uses thereof. The exopolysaccharides of the invention have a molecular weight of 100,000 to 1,000,000 and consist of 40-75% of total sugar, 5-15% of total acidic sugar and 10-25% of total protein. The exopolysaccharides exhibits a high immunoenhancing activity in immune cell proliferation, direct mitogenicity and mixed lymphocyte reaction, and further a high anticancer activity in vivo by virtue of immunostimulation. Moreover, the production of the exopolysaccharides by fermentation of a microorganism, makes it possible to provide the exopolysaccharides with a uniform quality and mass production without destruction of the plant species. The exopolysaccharides of the subject invention have practical uses as an active ingredient for anticancer agents, immunoenhancers and foodstuffs.

A liquid crystal gel containing liquid crystal molecules and a gelling agent. The liquid crystal gel exhibits substantially no fluidity. Also provided are a gelling agent, particularly, 1,2-bis-(11-(4-cyanobiphenyl-4'-oxo)undecylcarbonylamino)cyclohexane, which is capable of easily producing the liquid crystal gel; a liquid crystal device made from the liquid crystal gel with substantially no fluidity; and a process for fabricating a liquid crystal device capable of providing this liquid crystal device rapidly in a simple manner.

A novel microorganism producing a nontoxic, non-antigenic exopolysaccharide is taught. The exopolysaccharide has neutral sugars migrating at the same rate as mannose, fucose, fructose and galactose, acidic sugars migrating at the same rate as fucose and amine sugars migrating at the same rate as glucose and fucose, and wherein the ratio of galactose:fucose:glucose:mannose is about 1:2:3:6. The microbe and the exopolysaccharide have uses as a biofilm in geologic applications and have several consumer uses as food and drug polymers and use as a plasma extender.

A novel microorganism producing a nontoxic, non-antigenic exopolysaccharide is taught. The exopolysaccharide has neutral sugars migrating at the same rate as mannose, fucose, fructose and galactose, acidic sugars migrating at the same rate as fucose and amine sugars migrating at the same rate as glucose and fucose, and wherein the ratio of galactose:fucose:glucose:mannose is about 1:2:3:6. The microbe and the exopolysaccharide have uses as a biofilm in geologic applications and have several consumer uses as food and drug polymers and use as a plasma extender.

The disclosure describes a humectant, antistatic agent, film-forming agent or dispersant comprising an effective amount of a polysaccharide produced by two strains of Kliebsiella composed of D-glucuronic acid, L-rhamnose, D-galactose and D-glucose in a molar ratio of D-glucuronic acid:L-rhamnose:D-galactose:D-glucose=0.8-1.2:2.4-3.6:0.8-1.2:0.8-1.2.