Abstract: The present invention relates to a safflower plant or part thereof involving the molecular stacking of safflower events IND-1ØØØ3-4 x IND-1ØØ15-7, wherein the plant produces and accumulates chymosin in seed under agricultural conditions. A plant seed involving the molecular stacking of safflower events IND-1ØØØ3-4 x IND-1ØØ15-7. A consumer product produced from the seed, defined as chymosin, and additionally as ground grain, flour, flakes, oil, biodiesel, biogas, or another biomaterial. Also, the present invention include a recombinant DNA molecule involved in the molecular stacking of safflower events IND-1ØØØ3-4 x IND-1ØØ15-7. A DNA polynucleotide primer molecule comprising at least 15 contiguous nucleotides of the DNA molecule involved in the molecular stacking of safflower events IND-1ØØØ3-4 x IND-1ØØ15-7, or its complement which is useful in a DNA amplification method to produce a diagnostic amplicon for the event IND-1ØØØ3-4 and IND-1ØØ15-7, or each of them separately IND-1ØØØ3-4 and IND-1ØØ15-7.

Abstract: The present invention relates to a safflower plant or part thereof involving the molecular stacking of safflower events IND-1ØØØ3-4×IND-1ØØ15-7, wherein the plant produces and accumulates chymosin in seed under agricultural conditions. A plant seed involving the molecular stacking of safflower events IND-1ØØØ3-4×IND-1ØØ15-7. A consumer product produced from the seed, defined as chymosin, and additionally as ground grain, flour, flakes, oil, biodiesel, biogas, or another biomaterial. Also, the present invention include a recombinant DNA molecule involved in the molecular stacking of safflower events IND-1ØØØ3-4×IND-1ØØ15-7. A DNA polynucleotide primer molecule comprising at least 15 contiguous nucleotides of the DNA molecule involved in the molecular stacking of safflower events IND-1ØØØ3-4×IND-1ØØ15-7, or its complement which is useful in a DNA amplification method to produce a diagnostic amplicon for the event IND-1ØØØ3-4 and IND-1ØØ15-7, or each of them separately IND-1ØØØ3-4 and IND-1ØØ15-7.

Abstract: The invention relates to the fields of plant production, plant breeding and agriculture. More specifically, it relates to soybean transgenic event IND-ØØ41Ø-5, which expresses the gene HaHB4 that confers drought tolerance without affecting other agricultural capabilities. The application also discloses related nucleotide sequences, plants, parts of plants, seeds, cells, agricultural products, and detection and production methods.

Abstract: The present invention relates to a safflower plant or part thereof involving the molecular stacking of safflower events IND-1ØØØ3-4 x IND-1ØØ15-7, wherein the plant produces and accumulates chymosin in seed under agricultural conditions. A plant seed involving the molecular stacking of safflower events IND-1ØØØ3-4 x IND-1ØØ15-7. A consumer product produced from the seed, defined as chymosin, and additionally as ground grain, flour, flakes, oil, biodiesel, biogas, or another biomaterial. Also, the present invention include a recombinant DNA molecule involved in the molecular stacking of safflower events IND-1ØØØ3-4 x IND-1ØØ15-7. A DNA polynucleotide primer molecule comprising at least 15 contiguous nucleotides of the DNA molecule involved in the molecular stacking of safflower events IND-1ØØØ3-4 x IND-1ØØ15-7, or its complement which is useful in a DNA amplification method to produce a diagnostic amplicon for the event IND-1ØØØ3-4 and IND-1ØØ15-7, or each of them separately IND-1ØØØ3-4 and IND-1ØØ15-7.

Abstract: The present invention refers to a wheat plant, seed or part of it comprising event IND-ØØ412-7, a commodity product resulting from the seed, a recombinant DNA molecule comprised in event IND-ØØ412-7, DNA primers and probes useful for detecting event IND-ØØ412-7, DNA detection kit, method for producing a wheat plant tolerant to abiotic stresses and method for detecting the presence of DNA belonging to wheat event IND-ØØ412-7 in a sample.

Abstract: The invention relates to the fields of plant production, plant breeding and agriculture. More specifically, it relates to soybean transgenic event IND-ØØ41Ø-5, which expresses the gene HaHB4 that confers drought tolerance without affecting other agricultural capabilities. The application also discloses related nucleotide sequences, plants, parts of plants, seeds, cells, agricultural products, and detection and production methods.

Abstract: The present invention relates to a safflower plant or part thereof involving the molecular stacking of safflower events IND-1ØØØ3-4×IND-1ØØ15-7, wherein the plant produces and accumulates chymosin in seed under agricultural conditions. A plant seed involving the molecular stacking of safflower events IND-1ØØØ3-4×IND-1ØØ15-7. A consumer product produced from the seed, defined as chymosin, and additionally as ground grain, flour, flakes, oil, biodiesel, biogas, or another biomaterial. Also, the present invention include a recombinant DNA molecule involved in the molecular stacking of safflower events IND-1ØØØ3-4×IND-1ØØ15-7. A DNA polynucleotide primer molecule comprising at least 15 contiguous nucleotides of the DNA molecule involved in the molecular stacking of safflower events IND-1ØØØ3-4×IND-1ØØ15-7, or its complement which is useful in a DNA amplification method to produce a diagnostic amplicon for the event IND-1ØØØ3-4 and IND-1ØØ15-7, or each of them separately IND-1ØØØ3-4 and IND-1ØØ15-7.

Abstract: Immunological assays for several biological markers for thyroid disorders in a biological sample are performed in a single test with a combination of sandwich-type, sequential competitive, and serological assays by the use of particles classified into groups that are distinguishable by flow cytometry, one group for the assay of each marker. Each group of particles is coated with a different immunological binding member, and coating densities, co-coating materials, and special buffer solutions are used to adjust for differences in the sensitivities and dynamic ranges of each of the markers in the typical sample.

Abstract: Immunological assays for several biological markers for thyroid disorders in a biological sample are performed in a single test with a combination of sandwich-type, sequential competitive, and serological assays by the use of particles classified into groups that are distinguishable by flow cytometry, one group for the assay of each marker. Each group of particles is coated with a different immunological binding member, and coating densities, co-coating materials, and special buffer solutions are used to adjust for differences in the sensitivities and dynamic ranges of each of the markers in the typical sample.

Abstract: Immunological assays for several biological markers for thyroid disorders in a biological sample are performed in a single test with a combination of sandwich-type, sequential competitive, and serological assays by the use of particles classified into groups that are distinguishable by flow cytometry, one group for the assay of each marker. Each group of particles is coated with a different immunological binding member, and coating densities, co-coating materials, and special buffer solutions are used to adjust for differences in the sensitivities and dynamic ranges of each of the markers in the typical sample.

Abstract: Immunological assays for several biological markers for thyroid disorders in a biological sample are performed in a single test with a combination of sandwich-type, sequential competitive, and serological assays by the use of particles classified into groups that are distinguishable by flow cytometry, one group for the assay of each marker. Each group of particles is coated with a different immunological binding member, and coating densities, co-coating materials, and special buffer solutions are used to adjust for differences in the sensitivities and dynamic ranges of each of the markers in the typical sample.