The present invention describes a intracellular produced lactase, which comprises less than 40 units arylsulfatase activity per NLU of lactase activity. The invention also provides a process comprising treating a substrate with an enzyme preparation, wherein the enzyme preparation is substantially free from arylsulfatase.

The present invention describes a intracellular produced lactase, which comprises less than 40 units arylsulfatase activity per NLU of lactase activity. The invention also provides a process comprising treating a substrate with an enzyme preparation, wherein the enzyme preparation is substantially free from arylsulfatase.

The present invention relates to a wild-type, non-engineered, microbial lipolytic enzyme with a higher specificity for short-chain fatty acids than for medium to long fatty acids, specially long fatty acids. This invention further relates to a process for preparing a food product, and to the use of the wild-type, non-engineered, microbial lipolytic enzyme.

The present invention addresses the problem of providing a novel protein crosslinking method. In the present invention, a crosslinking reaction is accelerated by causing both an oxidoreductase such as a laccase and a protein deamidase such as a protein glutaminase to act on a substrate protein.

The present invention relates to an acidified protein product. Particularly, the invention relates to acidified protein product which can be used as a cheese or a meat substitute that can be fried or grilled. The present invention relates also the processes for producing such acidified protein products.

The present invention is in the field of dairy technology. It relates to methods of inhibiting the growth of unwanted microorganisms, such as Gram-negative bacteria, yeasts or molds in dairy products by using phospholipase to treat the milk base. The invention also provides dairy products produced therefrom.

The present invention relates to an acidified protein product. Particularly, the invention relates to acidified protein product which can be used as a cheese or a meat substitute that can be fried or grilled. The present invention relates also the processes for producing such acidified protein products.

Disclosed are nucleotide sequences encoding thioesterase enzymes, methods for their production, their use in methods to form thioesters, and their use in methods of screening for other wild type bacteria capable of producing said thioesterase enzymes. Also disclosed are compositions comprising thioesters produced by the methods disclosed herein.

The purpose of the present invention is to provide a technology for promoting short-chain fatty acid separation in a natural cheese production technology employing lipase of microbial origin. It is possible to promote short-chain fatty acid separation by means of a natural cheese production method including a step for causing lipase of microbial origin and protease of filamentous fungal origin to act on milk.

The present invention relates to a method for producing a fermented milk product (e.g. a pasta filata cheese) with a relatively stable pH value at the end of the fermentation comprising use of lactase in a first step (a) and lactic acid bacteria (LAB) in a further step, characterized by that the LAB are lactose-deficient (Lac(?)) and capable of metabolizing glucose (Glu(+)). The invention further relates to a Streptococcus thermophilus cell CHCC26980 deposited with registration number DSM32600 and a method to obtain a mutant of this strain.