The present invention relates to an improved process for isolating a carotenoid from a carotenoid-producing bioorganism, as well as to a formulation comprising such a carotenoid, and the use of such a solid formulation in feed products (or pre-mixes).

The present invention relates to an improved process for isolating a carotenoid from a carotenoid-producing bioorganism, as well as to a formulation comprising such a carotenoid, and the use of such a solid formulation in feed products (or pre-mixes).

The present invention relates to a method for the production of chromoplastid carotenoids that can be isolated from fruits. The procedure of the invention allows to selectively isolate, on the basis of the size (Size Exclusion Chromatography) and in pure form, the carotenoid in the form of regularly shaped and sized aggregates. The process includes the following steps: i) production, in suspension, of homogeneous fragments of the chromoplastidial membranes from the fruits; ii) solution isolation of the membrane components by solubilization with detergents; iii) selective and high-purity isolation of the carotenoid in the form of regular paracrystalline aggregates by a screening technique such as size exclusion chromatography (SECSize Exclusion Chromatography).

The present invention provides beta-cryptoxanthin crystals from plant source and a process for its preparation. The present invention particularly relates to a process for the preparation of high purity beta-cryptoxanthin crystals comprising at least about 10% by weight total xanthophylls, of which at least about 75% by weight is trans-beta-cryptoxanthin and the remaining including beta-carotene, and trace amounts of trans-capsanthin and other carotenoids derived from the plant source, including capsicum fruits. The production of beta-cryptoxanthin crystals with high content of trans-beta-cryptoxanthin makes it ideal and suitable for use as a provitamin A source material and also has potential effects on improving bone health and inhibiting bone resorption.

The present invention provides beta-cryptoxanthin crystals from plant source and a process for its preparation. The present invention particularly relates to a process for the preparation of high purity beta-cryptoxanthin crystals comprising at least about 10% by weight total xanthophylls, of which at least about 75% by weight is trans-beta-cryptoxanthin and the remaining including beta-carotene, and trace amounts of trans-capsanthin and other carotenoids derived from the plant source, including capsicum fruits. The production of beta-cryptoxanthin crystals with high content of trans-beta-cryptoxanthin makes it ideal and suitable for use as a provitamin A source material and also has potential effects on improving bone health and inhibiting bone resorption.

Methods of obtaining a carotenoid-containing composition were developed, in which degradation of carotenoids is suppressed even though extraction and purification are performed on a culture of microorganism that produces carotenoids including astaxanthin by simple steps using a lower alcohol which is a conventionally known solvent, and the compositions have high astaxanthin content and contain highly pure carotenoids and also have satisfactory crystal properties. Further addition of a simple step that promotes isomerization of astaxanthin successfully improved the carotenoid yield.

Methods of obtaining a carotenoid-containing composition were developed, in which degradation of carotenoids is suppressed even though extraction and purification are performed on a culture of microorganism that produces carotenoids including astaxanthin by simple steps using a lower alcohol which is a conventionally known solvent, and the compositions have high astaxanthin content and contain highly pure carotenoids and also have satisfactory crystal properties. Further addition of a simple step that promotes isomerization of astaxanthin successfully improved the carotenoid yield.

The present invention relates to a simple and economic method of extracting a crystalline Carotenoid compound, such as Beta-carotene, Lycopene, with a purity of at least 99%. The present invention further describes a process to prepare such a highly pure crystalline Carotenoid compound from microbial biomass, using an Anti-purity compound removal process followed by a mono-solvent extraction method. Further the process describes value addition of the co-products recovered during the extraction process thus resulting in a highly economical industrial method for the production of such high purity crystalline Carotenoids compound.

The present invention relates to a simple and economic method of extracting a crystalline Carotenoid compound, such as Beta-carotene, Lycopene, with a purity of at least 99%. The present invention further describes a process to prepare such a highly pure crystalline Carotenoid compound from microbial biomass, using an Anti-purity compound removal process followed by a mono-solvent extraction method. Further the process describes value addition of the co-products recovered during the extraction process thus resulting in a highly economical industrial method for the production of such high purity crystalline Carotenoids compound.

The present invention relates to a method for preparing an iodine-doped TiO.sub.2 nano-catalyst and use of the catalyst in heterogeneously catalyzing configuration transformation of trans-carotenoids. The iodine-doped TiO.sub.2 nano-catalyst is prepared by a sol-gel process using a titanate ester as a precursor and an iodine-containing compound as a dopant in the presence of a diluent, inhibitor and complexing agent. The catalyst exhibits high activity for isomerization of the trans-carotenoids into their cis-isomers within a short catalytic time. The catalyst can be easily prepared and is highly efficient, economical, recyclable and environmentally friendly.