Abstract: The invention provides recombinant host organisms (e.g., plants) genetically modified with a polyunsaturated fatty acid (PUFA) synthase system and one or more accessory proteins (e.g., PPTase and/or ACoAS) that allow for and/or improve the production of PUFAs in the host organism. The present invention also relates to methods of making and using such organisms (e.g., to obtain PUFAs) as well as products obtained from such organisms (e.g., oil and/or seed).

Abstract: The invention provides recombinant host organisms (e.g., plants) genetically modified with a polyunsaturated fatty acid (PUFA) synthase system and one or more accessory proteins (e.g., PPTase and/or ACoAS) that allow for and/or improve the production of PUFAs in the host organism. The present invention also relates to methods of making and using such organisms (e.g., to obtain PUFAs) as well as products obtained from such organisms (e.g., oil and/or seed).

Abstract: Factors For the Production and Accumulation of Polyunsaturated Fatty Acids (PUFAs) Derived from PUFA Synthases Abstract Disclosed are novel enhancing factor proteins of the PUFA synthase systems, nucleic acid molecules encoding the same, recombinant nucleic acid molecules and recombinant host cells comprising such nucleic acid molecules, genetically modified microorganisms comprising the same, and methods of making and using the same. Also disclosed are genetically modified microorganisms that have been genetically modified to express a PUFA synthase system for the production of PUFAs, wherein the microorganisms have been modified to express the novel enhancing factor proteins of the PUFA synthase system.

Abstract: Disclosed are novel enhancing factor proteins of the PUFA synthase systems, nucleic acid molecules encoding the same, recombinant nucleic acid molecules and recombinant host cells comprising such nucleic acid molecules, genetically modified microorganisms comprising the same, and methods of making and using the same. Also disclosed are genetically modified microorganisms that have been genetically modified to express a PUFA synthase system for the production of PUFAs, wherein the microorganisms have been modified to express the novel enhancing factor proteins of the PUFA synthase system.

Abstract: Factors For the Production and Accumulation of Polyunsaturated Fatty Acids (PUFAs) Derived from PUFA Synthases Abstract Disclosed are novel enhancing factor proteins of the PUFA synthase systems, nucleic acid molecules encoding the same, recombinant nucleic acid molecules and recombinant host cells comprising such nucleic acid molecules, genetically modified microorganisms comprising the same, and methods of making and using the same. Also disclosed are genetically modified microorganisms that have been genetically modified to express a PUFA synthase system for the production of PUFAs, wherein the microorganisms have been modified to express the novel enhancing factor proteins of the PUFA synthase system.

Abstract: A dialysis device, and a method of dialyzing a sample, are provided. The dialysis device includes a body having a first and a second major side, a first and a second retaining ring disposed on the first and second major sides, and a first and second dialysis membrane disposed, and held between the first and second major sides and the first and second retaining rings. The dialysis device is configured to receive a sample to enable dialysis of the sample across the membranes.

Abstract: A dialysis device, and a method of dialyzing a sample, are provided. The dialysis device includes a body having a first and a second major side, a first and a second retaining ring disposed on the first and second major sides, and a first and second dialysis membrane disposed, and held between the first and second major sides and the first and second retaining rings. The dialysis device is configured to receive a sample to enable dialysis of the sample across the membranes.

Abstract: The present invention relates to compositions and methods for preparing poly-unsaturated long chain fatty acids in plants, plant parts and plant cells, such as leaves, roots, fruits and seeds. Nucleic acid sequences and constructs encoding PKS-like genes required for the poly-unsaturated long chain fatty acid production, including the genes responsible for eicosapentenoic acid production of Shewanella putrefaciens and novel genes associated with the production of docosahexenoic acid in Vibrio marinus are used to generate transgenic plants, plant parts and cells which contain and express one or more transgenes encoding one or more of the PKS-like genes associated with such long chain polyunsaturated fatty acid production. Expression of the PKS-like genes in the plant system permits the large scale production of poly-unsaturated long chain fatty acids such as eicosapentenoic acid and docosahexenoic acid for modification of the fatty acid profile of plants, plant parts and tissues.

Abstract: A dialysis device, and a method of dialyzing a sample, are provided. The dialysis device includes a body having a first and a second major side, a first and a second retaining ring disposed on the first and second major sides, and a first and second dialysis membrane disposed, and held between the first and second major sides and the first and second retaining rings. The dialysis device is configured to receive a sample to enable dialysis of the sample across the membranes.

Abstract: The present invention relates to compositions and methods for preparing poly-unsaturated long chain fatty acids in plants, plant parts and plant cells, such as leaves, roots, fruits and seeds. Nucleic acid sequences and constructs encoding PKS-like genes required for the poly-unsaturated long chain fatty acid production, including the genes responsible for eicosapentenoic acid production of Shewanella putrefaciens and novel genes associated with the production of docosahexenoic acid in Vibrio marinus are used to generate transgenic plants, plant parts and cells which contain and express one or more transgenes encoding one or more of the PKS-like genes associated with such long chain polyunsaturated fatty acid production. Expression of the PKS-like genes in the plant system permits the large scale production of poly-unsaturated long chain fatty acids such as eicosapentenoic acid and docosahexenoic acid for modification of the fatty acid profile of plants, plant parts and tissues.

Abstract: A cooling device for a microcircuit provides a direct path of thermal extraction from a high heat producing area to a cooler area. A thermal insulation layer is formed on a body having at least one component thereon that generates the high heat producing area. At least one via is formed through an entire thickness of the insulation layer and is in direct communication with the high heat producing area. Heat from the high heat producing area is channeled through each via to the cooler area, which may be ambient atmosphere or a good thermal conductor, such as a heat sink. A thermal conductive material may be deposited within the via and increase the rate of thermal extraction therethrough.

Abstract: The present invention relates to compositions and methods for preparing poly-unsaturated long chain fatty acids in plants, plant parts and plant cells, such as leaves, roots, fruits and seeds. Nucleic acid sequences and constructs encoding PKS-like genes required for the poly-unsaturated long chain fatty acid production, including the genes responsible for eicosapentenoic acid production of Shewanella putrefaciens and novel genes associated with the production of docosahexenoic acid in Vibrio marinus are used to generate transgenic plants, plant parts and cells which contain and express one or more transgenes encoding one or more of the PKS-like genes associated with such long chain polyunsaturated fatty acid production. Expression of the PKS-like genes in the plant system permits the large scale production of poly-unsaturated long chain fatty acids such as eicosapentenoic acid and docosahexenoic acid for modification of the fatty acid profile of plants, plant parts and tissues.

Abstract: A cooling device for a microcircuit provides a direct path of thermal extraction from a high heat producing area to a cooler area. A thermal insulation layer is formed on a body having at least one component thereon that generates the high heat producing area. At least one via is formed through an entire thickness of the insulation layer and is in direct communication with the high heat producing area. Heat from the high heat producing area is channeled through each via to the cooler area, which may be ambient atmosphere or a good thermal conductor, such as a heat sink. A thermal conductive material may be deposited within the via and increase the rate of thermal extraction therethrough.

Abstract: By this invention, a plant &bgr;-ketoacyl-CoA synthase condensing enzyme is provided free from intact cells of said plant and capable of catalyzing the production of very long chain fatty acid molecules. Also contemplated are constructs comprising the nucleic acid sequence and a heterologous DNA sequence not naturally associated with the condensing enzyme encoding sequences, and which provide for at least transcription of a plant condensing enzyme encoding sequence in a host cell. In this fashion very long chain fatty acid molecules may be produced in a plant cell. Included are methods of modifying the composition of very long chain fatty acid molecules in a plant cell.

Abstract: By this invention, nucleic acid sequences encoding for fatty acyl-CoA:fatty alcohol acyltransferase (wax synthase) are provided, wherein said wax synthase is active in the formation of a wax ester from fatty alcohol and fatty acyl-CoA substrates. Of special interest is are nucleic acid sequences obtainable from a jojoba embryo wax synthase having an apparent molecular mass of approximately 33 kD. Also considered are amino acid and nucleic acid sequences obtainable from wax synthase proteins and the use of such sequences to provide transgenic host cells capable of producing wax esters.

Abstract: By this invention, nucleic acid sequences encoding for fatty acyl-CoA: fatty alcohol acyltransferase (wax synthase) are provided, wherein said wax synthase is active in the formation of a wax ester from fatty alcohol and fatty acyl-CoA substrates. Of special interest is are nucleic acid sequences obtainable from a jojoba embryo wax synthase having an apparent molecular mass of approximately 33 kD. Also considered are amino acid and nucleic acid sequences obtainable from wax synthase proteins and the use of such sequences to provide transgenic host cells capable of producing wax esters.

Abstract: The present invention relates to compositions and methods for preparing poly-unsaturated long chain fatty acids in plants, plant parts and plant cells, such as leaves, roots, fruits and seeds. Nucleic acid sequences and constructs encoding PKS-like genes required for the poly-unsaturated long chain fatty acid production, including the genes responsible for eicosapentenoic acid production of Shewanella putrefaciens and novel genes associated with the production of docosahexenoic acid in Vibrio marinus are used to generate transgenic plants, plant parts and cells which contain and express one or more transgenes encoding one or more of the PKS-like genes associated with such long chain polyunsaturated fatty acid production. Expression of the PKS-like genes in the plant system permits the large scale production of poly-unsaturated long chain fatty acids such as eicosapentenoic acid and docosahexenoic acid for modification of the fatty acid profile of plants, plant parts and tissues.

Abstract: The present invention relates to compositions and methods for preparing poly-unsaturated long chain fatty acids in plants, plant parts and plant cells, such as leaves, roots, fruits and seeds. Nucleic acid sequences and constructs encoding PKS-like genes required for the poly-unsaturated long chain fatty acid production, including the genes responsible for eicosapentenoic acid production of Shewanella putrefaciens and novel genes associated with the production of docosahexenoic acid in Vibrio marinus are used to generate transgenic plants, plant parts and cells which contain and express one or more transgenes encoding one or more of the PKS-like genes associated with such long chain polyunsaturated fatty acid production. Expression of the PKS-like genes in the plant system permits the large scale production of poly-unsaturated long chain fatty acids such as eicosapentenoic acid and docosahexenoic acid for modification of the fatty acid profile of plants, plant parts and tissues.

Abstract: By this invention, nucleic acid sequences encoding for fatty acyl-CoA: fatty alcohol acyltransferase (wax synthase) are provided, wherein wax synthase is active in the formation of a wax ester from fatty alcohol and fatty acyl-CoA substrates. Of special interest is are nucleic acid sequences obtainable from a jojoba embryo wax synthase having an apparent molecular mass of approximately 33 kD. Also considered are amino acid and nucleic acid sequences obtainable from wax synthase proteins and the use of such sequences to provide transgenic host cells capable of producing wax esters.

Abstract: The present invention relates to compositions and methods for preparing poly-unsaturated long chain fatty acids in plants, plant parts and plant cells, such as leaves, roots, fruits and seeds. Nucleic acid sequences and constructs encoding PKS-like genes required for the poly-unsaturated long chain fatty acid production, including the genes responsible for eicosapentenoic acid production of Shewanella putrefaciens and novel genes associated with the production of docosahexenoic acid in Vibrio marinus are used to generate transgenic plants, plant parts and cells which contain and express one or more transgenes encoding one or more of the PKS-like genes associated with such long chain polyunsaturated fatty acid production. Expression of the PKS-like genes in the plant system permits the large scale production of poly-unsaturated long chain fatty acids such as eicosapentenoic acid and docosahexenoic acid for modification of the fatty acid profile of plants, plant parts and tissues.