The present disclosure relates to acetaminophen protein adducts and methods of diagnosing acetaminophen toxicity using the acetaminophen protein adducts.

The present invention discloses a conjugate comprising an antigen (for example a saccharide antigen) covalently linked to a Pseudomonas aeruginosa PcrV carrier protein comprising an amino acid sequence which is at least 80% identical to the sequence of SEQ ID NO:1-4, wherein the antigen is linked (either directly or through a linker) to an amino acid residue of the P. aeruginosa PcrV carrier protein. The invention also discloses Pseudomonas aeruginosa PcrV proteins that contain glycosylation site consensus sequences.

One or more genes in a biosynthesis pathway for a vitamin or other essential nutrient which is needed for the survival of a microorganism can be used as an effective selective marker to identify cells transformed with an exogenous nucleic acid. The microorganism does not naturally contain or express the one or more gene. This permits genetic manipulations to be performed. It permits lower cost fermentations to be performed. It permits production of the essential nutrient for subsequent commodity use.

Provided are: a polypeptide having activity of 3-methyl-2-oxobutanoate hydroxymethyltransferase; a microorganism having increased activity of 3-methyl-2-oxobutanoate hydroxymethyltransferase; a composition for producing pantothenic acid and/or pantoic acid, comprising the polypeptide and/or the microorganism, and a pantothenic acid and/or pantoic acid production method comprising a step for culturing the microorganism.

An object of the present disclosure is at least to provide a technique for promoting elimination of a methyl group(s) of a methoxy group(s) in causing a microorganism having a demethylation ability of eliminating a methyl group(s) of a methoxy group(s) from a compound with the methoxy group(s) in a side chain(s) to produce a demethylated compound in which a methyl group(s) of a methoxy group(s) has eliminated from a compound with the methoxy group(s) in a side chain(s). The issue is solved by a method for producing a demethylated compound, comprising co-culturing, in a solution containing a compound with a methoxy group(s) in a side chain(s), a microorganism having a demethylation ability of eliminating a methyl group(s) of a methoxy group(s) from a compound with the methoxy group(s) in a side chain(s), and a microorganism having an activity to promote the demethylation, to produce the demethylated compound in which a methyl group(s) of a methoxy group(s) has eliminated from the compound with the methoxy group(s) in the side chain(s).

The present disclosure relates to acetaminophen protein adducts and methods of diagnosing acetaminophen toxicity using the acetaminophen protein adducts.

The present disclosure relates to acetaminophen protein adducts and methods of diagnosing acetaminophen toxicity using the acetaminophen protein adducts. The present disclosure provides acetaminophen (APAP)-protein adducts and methods of detecting acetaminophen-induced toxicity in a subject using APAP-protein adducts. One aspect of the present disclosure provides an APAP-protein adduct for diagnosing acetaminophen-induced toxicity. According to the present disclosure, the inventors have identified proteins that are modified by N-acetyl-pbenzoquinoneimine (NAPQI) in subjects with acetaminophen-induced toxicity. Non-limiting examples of proteins modified by NAPQI include betaine-homocysteine S-methyltransferase 1, cytoplasmic aspartate aminotransferase, 1,4-alpha-glucan branching enzyme, formimidoyltransferase-cyclodeaminase, and dystrophin.

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 discloses a conjugate comprising an antigen (for example a saccharide antigen) covalently linked to a Pseudomonas aeruginosa PcrV carrier protein comprising an amino acid sequence which is at least 80% identical to the sequence of SEQ ID NO:1-4, wherein the antigen is linked (either directly or through a linker) to an amino acid residue of the P. aeruginosa PcrV carrier protein. The invention also discloses Pseudomonas aeruginosa PcrV proteins that contain glycosylation site consensus sequences.

The present invention relates to a secretagogue compound derived from oxalate degrading bacteria, for use in the treatment of an oxalate related disease and/or oxalate related imbalance in a subject, wherein the administration of the secretagogue results in a reduction of urinary oxalate and/or plasma oxalate in the subject. The invention further relates to a pharmaceutical composition comprising such a secretagogue compound, a method for treating a subject suffering from an oxalate related disease, and to a method for preparing a secretagogue.