Abstract: The invention relates to a method for analyzing a genomic region of an organism, comprising four major parts. The first part involves the isolation of mRNA from a selected organism that is used for the preparation of small single stranded DNA fragments with one adaptor containing an affinity label. These DNA fragments are used in part three. In the second part, genomic DNA from the same or a related organism is isolated. This genomic DNA is fragmented and ligated to adaptor molecules. In the third part, these genomic fragments are hybridized with single stranded DNA fragments from part one, and the hybrids formed in this process are used for synthesis of DNA fragments. These fragments will be used in part four which involves sequencing of these fragments using one of the available high throughput sequencing methods.

Abstract: The present invention relates to a method for predicting the expected value of the quality features in agricultural and horticultural product and a method for predicting the expected optimal time of harvest by comparing expression parameters at the moment prior to harvest or during the postharvest path of genes and/or proteins related to such quality features for that agricultural and horticultural product, with (a) predetermined calibration line(s). The invention also comprises the markers M8, GAST and GDSL motif lipase and the uses thereof, as well as antibodies against them.

Abstract: The invention relates to a method for analyzing a genomic region of an organism, comprising four major parts. The first part involves the isolation of mRNA from a selected organism that is used for the preparation of small single stranded DNA fragments with one adaptor containing an affinity label. These DNA fragments are used in part three. In the second part, genomic DNA from the same or a related organism is isolated. This genomic DNA is fragmented and ligated to adaptor molecules. In the third part, these genomic fragments are hybridized with single stranded DNA fragments from part one, and the hybrids formed in this process are used for synthesis of DNA fragments. These fragments will be used in part four which involves sequencing of these fragments using one of the available high throughput sequencing methods.

Abstract: The present invention relates to a method for predicting the expected value of the quality features in agricultural and horticultural product and a method for predicting the expected optimal time of harvest by comparing expression parameters at the moment prior to harvest or during the postharvest path of genes and/or proteins related to such quality features for that agricultural and horticultural product, with (a) predetermined calibration line(s). The invention also comprises the markers M8, GAST and GDSL motif lipase and the uses thereof, as well as antibodies against them.

Abstract: The invention relates to a method for producing oligosaccharides, comprising selecting a gene which codes for an enzyme which is capable of converting sucrose into an oligosaccharide; linking the gene to suitable transcription-initiation and transcription-termination signals in order to provide an expression construct; transforming a suitable plant cell with the expression construct; regenerating a transgenic plant from the transformed plant cell; culturing the transgenic plant under conditions enabling the expression and activity of the enzyme; and isolating the oligosaccharides from the transgenic plant. The invention further relates to the product obtained by means of the method and to the use thereof, in addition to transgenic plants and parts thereof which are capable of producing oligosaccharides.

Abstract: The invention relates to a method for producing oligosaccharides, comprising [[of]] selecting a gene which codes for an enzyme which is capable of converting sucrose into an oligosaccharide; linking the gene to suitable transcription-initiation and transcription-termination signals in order to provide an expression construct; transforming a suitable plant cell with the expression construct; regenerating a transgenic plant from the transformed plant cell; culturing the transgenic plant under conditions enabling the expression and activity of the enzyme; and isolating the oligosaccharides from the transgenic plant. The invention further relates to the product obtained by means of the method and to the use thereof, in addition to transgenic plants and parts thereof which are capable of producing oligosaccharides.

Abstract: The invention relates to a method for producing oligosaccharides, comprising selecting a gene which codes for an enzyme which is capable of converting sucrose into an oligosaccharide; linking the gene to suitable transcription-initiation and transcription-termination signals in order to provide an expression construct; transforming a suitable plant cell with the expression construct; transforming a suitable plant cell with the expression construct; regenerating a transgenic plant from the transformed plant cell; culturing the transgenic plant under conditions enabling the expression and activity of the enzyme; and isolating the oligosaccharides from the transgenic plant. The invention further relates to the product obtained by means of the method and to the use thereof, in addition to transgenic plants and parts thereof which are capable of producing oligosaccharides.

Abstract: The present invention relates to a method for obtaining transgenic plants showing a modified fructan pattern as compared to non-transformed plants, comprising the steps of: a) preparing a DNA construct comprising one or more fructosyltransferase genes, or modified versions thereof, being operably linked to a promoter sequence active in plants and a terminator sequence active in plants; b) transforming a plant cell with the construct; and c) regenerating a transgenic plant from the transformed plant cell. Preferably, the 5' untranslated region of the fructosyltransferase gene is modified such that the expression of the fructosyltransferase is not negatively affected. The DNA construct may also comprise a targeting sequence upstream from the fructosyltransferase gene for directing the fructosyltransferase to a specific plant tissue or plant cell compartment.

Abstract: The present invention relates to a method for obtaining transgenic plants showing a modified fructan pattern as compared to non-transformed plants, comprising the steps of: a) preparing a DNA construct comprising one or more fructosyltransferase genes, or modified versions thereof, being operably linked to a promoter sequence active in plants and a terminator sequence active in plants; b) transforming a plant cell with the construct; and c) regenerating a transgenic plant from the transformed plant cell. Preferably, the 5' untranslated region of the fructosyltransferase gene is modified such that the expression of the fructosyltransferase is not negatively affected. The DNA construct may also comprise a targeting sequence upstream from the fructosyltransferase gene for directing the fructosyltransferase to a specific plant tissue or plant cell compartment.