Add to ORKGpublication date: 2003-11-20; filing date: 2003-05-06The invention relates to methods for increasing the oil content in plants, preferably in the seeds of plants, by expression of glycerol-3-phosphatdehydrogenases (G3PDH) from yeast, preferably from Saccharomyces cerevisiae. The invention also relates to expression constructs for the expression of G3PDH yeast in plants, preferably in the seeds of plants, transgenic plants expressing G3PDH, and to the use of said transgenic plants in the production of foodstuffs, feed, seeds, pharmaceuticals or fine chemicals, especially in the production of oils
Provided herein is a transgenic plant, seed, or progeny, genetically engineered to overexpress one o...
The present invention relates to an improved method for the specific production of unsaturated omega...
The world is hungry for energy. Plant oils in the form of triacylglycerol (TAG) are one of the most ...
Previous attempts to manipulate oil synthesis in plants have mainly concentrated on the genes involv...
Methods of increasing renewable oil production are provided and include transforming a plant cell wi...
This chapter discusses engineering of plants for yield and composition of edible and industrial tria...
Provided are plants that express, or overexpress, a pPLAIIIδ protein. Constitutive or seed-specific ...
The advent of plant genetic engineering over two decades ago hastened new thinking on breeding crops...
Abstract Plant fatty acids are used for food, feed, fuel, and industrial materials. Structurally and...
Compositions and methods for enhancing secretion of oils from oil producing cells are described here...
The present invention provides methods of producing biological products or increasing production of ...
Global demand for vegetable oil is anticipated to double by 2030. The current vegetable oil producti...
The last few decades have seen huge advances in our understanding of plant biology and in ...
Manipulation of biosynthetic pathways in transgenic plants offers a number of exciting opportunities...
Sesame is considered as the queen of oil seeds owing to its high oil content of about 56–62% and goo...
Provided herein is a transgenic plant, seed, or progeny, genetically engineered to overexpress one o...
The present invention relates to an improved method for the specific production of unsaturated omega...
The world is hungry for energy. Plant oils in the form of triacylglycerol (TAG) are one of the most ...
Previous attempts to manipulate oil synthesis in plants have mainly concentrated on the genes involv...
Methods of increasing renewable oil production are provided and include transforming a plant cell wi...
This chapter discusses engineering of plants for yield and composition of edible and industrial tria...
Provided are plants that express, or overexpress, a pPLAIIIδ protein. Constitutive or seed-specific ...
The advent of plant genetic engineering over two decades ago hastened new thinking on breeding crops...
Abstract Plant fatty acids are used for food, feed, fuel, and industrial materials. Structurally and...
Compositions and methods for enhancing secretion of oils from oil producing cells are described here...
The present invention provides methods of producing biological products or increasing production of ...
Global demand for vegetable oil is anticipated to double by 2030. The current vegetable oil producti...
The last few decades have seen huge advances in our understanding of plant biology and in ...
Manipulation of biosynthetic pathways in transgenic plants offers a number of exciting opportunities...
Sesame is considered as the queen of oil seeds owing to its high oil content of about 56–62% and goo...
Provided herein is a transgenic plant, seed, or progeny, genetically engineered to overexpress one o...
The present invention relates to an improved method for the specific production of unsaturated omega...
The world is hungry for energy. Plant oils in the form of triacylglycerol (TAG) are one of the most ...