A fermentation of a milk source with Lactococcus lactis subsp. lactis biovar diacetylactis (CNCM No. I-1962) to form a fermented milk product. The fermented milk product has a flavor and aroma. The fermented milk product can be in the form of a powder or a concentrate. The fermented milk product has applications in the food industry.

Non-naturally occurring microbial organisms and related methods, processes and materials are for microbial organisms that include a genetic modification which enhances production of 3-hydroxybutanal or a downstream product of 3-hydroxybutanal such as 1,3-butanediol from endogenous central metabolic intermediates such as acetyl CoA or pyruvate which are converted to acetaldehyde. Two molecules of acetaldehyde are condensed to form the 3-hydroxybutanal using an aldolase capable of accepting acetaldehyde as both the acceptor and donor in an aldol condensation. The aldolase may be a deoxyribose phosphate aldolase type enzyme, and is typically introduced into the organisms. Energetically favorable pathways produce 3-hydroxybutanal or downstream products thereof.

Non-naturally occurring microbial organisms and related methods, processes and materials are for microbial organisms that include a genetic modification which enhances production of 3-hydroxybutanal or a downstream product of 3-hydroxybutanal such as 1,3-butanediol from endogenous central metabolic intermediates such as acetyl CoA or pyruvate which are converted to acetaldehyde. Two molecules of acetaldehyde are condensed to form the 3-hydroxybutanal using an aldolase capable of accepting acetaldehyde as both the acceptor and donor in an aldol condensation. The aldolase may be a deoxyribose phosphate aldolase type enzyme, and is typically introduced into the organisms. Energetically favorable pathways produce 3-hydroxybutanal or downstream products thereof.

A method for producing an objective substance such as vanillin and vanillic acid is provided. An objective substance is produced from a carbon source or a precursor of the objective substance by using a microorganism that is able to produce the objective substance, which microorganism has been modified so that the activity of an enzyme involved in SAM cycle (SAM cycle enzyme) is increased.

A method for producing an objective substance such as vanillin and vanillic acid is provided. An objective substance is produced from a carbon source or a precursor of the objective substance by using a microorganism that is able to produce the objective substance, which microorganism has been modified so that the activity of an enzyme involved in SAM cycle (SAM cycle enzyme) is increased.

The present invention relates to a process of producing isobutanol, including: mixing water, lactate, an enzyme mixture including at least one enzyme, at least one cofactor, and at least one coenzyme, to prepare a reaction mixture; allowing catalytic conversions of lactate in the reaction mixture for a sufficient amount of time to produce isobutanol; and separating the isobutanol from a reactant obtained by the catalytic conversions, in which the conversion of lactate into isobutanol is in association with a NADH.sup.+/NADH and/or NADP.sup.+/NADPH regenerating system.

The present invention relates to a process of producing isobutanol, including: mixing water, lactate, an enzyme mixture including at least one enzyme, at least one cofactor, and at least one coenzyme, to prepare a reaction mixture; allowing catalytic conversions of lactate in the reaction mixture for a sufficient amount of time to produce isobutanol; and separating the isobutanol from a reactant obtained by the catalytic conversions, in which the conversion of lactate into isobutanol is in association with a NADH.sup.+/NADH and/or NADP.sup.+/NADPH regenerating system.

The present invention relates to a process for treating a composition comprising natural vanillin by separating a compound of formula (I).

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This invention provides recombinant cells and methods for producing terpenes and terpenoids by increasing production or accumulation or both of isoprenoid precursors thereof.

A fusion chimeric protein is described herein that can assemble a functional carboxysome core, which is able to fix carbon by taking atmospheric carbon dioxide and converting it into useful carbon-containing compounds such as 3-phosphoglycerate (3-PGA).