Disclosed is a modified microorganism producing putrescine or ornithine, and a method for producing putrescine or ornithine using the same.

The present invention relates to a recombinant microorganism for producing putrescine or ornithine, and a method for producing putrescine or ornithine using the same. Specifically, the present invention relates to a microorganism of the genus Corynebacterium capable of producing putrescine or ornithine, in which an activity of the transcriptional regulator of sugar metabolism (SugR) is weakened, an activity of the citrate synthase (GltA) is enhanced, or both are applied; and a method for producing putrescine or ornithine using the same.

A method for expressing, as a soluble protein or an active-form mutant enzyme, an enzyme that cannot be expressed as a soluble protein or an active-form enzyme in a heterologous expression system or that is obtained in a minute amount even when an active-form enzyme is expressed, the method including a technique for selecting an effective mutation site and a mutated amino acid. A new active-form mutant enzyme is also disclosed. The method involves: specifying an insoluble protein or an inactive-form enzyme; specifying a hydrophilic amino acid in a hydrophobic domain and/or a hydrophobic amino acid in a hydrophilic domain of an -helix structure portion of the insoluble protein or the inactive-form enzyme and preparing a gene that codes for an amino acid sequence in which a substitution is made to the hydrophilic amino acid in the hydrophobic domain and/or the hydrophobic amino acid in the hydrophilic domain.

The present invention relates to the provision of genetically modified microbial cells, such as yeast cells with an improved ability for producing L-ornithine and its derivatives. Overproduction of L-ornithine is obtained in the first place by the down-regulation or attenuation of specially selected genes, wherein said genes encode enzymes involved in the L-ornithine consumption and/or degradation pathways. Further L-ornithine production ability is improved by down-regulation, attenuation, deletion or overexpression of specially selected genes, wherein said genes encode enzymes and/or proteins involved in the L-ornithine acetylated derivatives cycle, L-glutamate synthesis pathways, subcellular trafficking, TCA cycle, pyruvate carboxylation pathway, respiratory electron-transport chain, and the carbon substrates' assimilation machinery. The invention additionally provides a method to produce L-ornithine with said modified eukaryotic cells.

The present application relates to a variant of ornithine decarboxylase or protein, a polynucleotide encoding the same, a microorganism containing the same, and a method for producing putrescine using the same. The present invention achieves effects of increasing putrescine productivity, production efficiency or production selectivity, suppressing side reactions, and saving the cost involved in purifying putrescine.

The present invention relates to a putrescine-producing microorganism and a method for producing putrescine using the same. To be more specific, the present invention is directed to a microorganism given the ability to produce putrescine which is generated by blocking a biosynthetic pathway from ornithine to arginine, increasing the intracellular level of glutamate, enhancing the biosynthetic pathway of ornithine from glutamate, and introducing extracellular ornithine decarboxylase; and a method for producing putrescine by using the microorganism.

The present invention is directed to a vaccine comprising recombinant antigens derived from the parasitic nematode Haemonchus contortus, which will raise an immune response in farmed and wild ruminants that are susceptible or predisposed to infection by one or more nematode worm species. The recombinant antigens used in the invention are conserved among species of nematode worms so that the vaccine will provide protection against multiple types of nematode worms. In particular, the invention provides a composition or vaccine composition comprising the recombinant H. contortus antigens: (i) enolase (EN); (ii) arginine kinase (AK); and (iii) ornithine decarboxylase (ODC), or antigenic fragments thereof, together with a veterinary acceptable carrier or diluent.

The present invention relates to a compound of general formula (I)

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or an enantiomer, diastereomer, stereoisomer, which mediates resistance against leaf- and planthopper pests. The present invention further relates to a method of producing the compound, an enzymatic production method the compound using at least a BBL2 polypeptide, as well as a PPO, AT1, ODC, HPL, PAL, C4H, 4CL, HCT and/or C3H activity. Further envisaged are genetically modified organisms producing the compound, expression cassettes for heterologous expression of the activities, the use of corresponding polypeptides and polynucleotides for the production of the compound, a composition including the compound, as well as uses of the compound for plant protection.

The present invention relates to a recombinant microorganism capable of producing putrescine at high yield due to inactivated activity of a protein having an amino acid sequence represented by SEQ ID NO: 2 in the microorganism, and a method of producing putrescine using the microorganism.

The present invention relates to a recombinant microorganism capable of producing putrescine at high yield due to inactivated activity of a protein having an amino acid sequence represented by SEQ ID NO: 2 in the microorganism, and a method of producing putrescine using the microorganism.