Abstract: The invention relates to methods for producing maize plants, plant materials and seeds that provide a means of controlling and defending against the corn silk fly and phorid fly, and improved maize plants, plant materials and seed produced by these methods. Corn silk flies and phorid flies are highly detrimental and destructive insects damaging maize plants, plant materials and seed during their growing stages in many different geographic regions worldwide. The inventive methods utilize molecular markers to incorporate genes that prove a means for controlling and defending against the corn silk fly and phorid fly into male and female inbred parent maize lines used to produce maize hybrids, or into at least one of the maize parent lines of a hybrid.

Abstract: The present invention relates to a method for in situ preparation of cyano-bridged coordination polymers as metal nanoparticles within a biocompatible reverse micellar system by mixing at least two reverse micellar systems, each one containing at least one metal salt precursor. The invention also relates to the stabilization of theses nanoparticles by using a biocompatible reverse micellar system. This system takes part of the synthesis as a nanoreactor which comprises at least an acylglycerol, a sterol, lecithin, ethanol and water for the preparation of stable cyano-bridged metal nanoparticles without any use of additional stabilizer agent.

Abstract: The invention relates to methods for producing maize plants, plant materials and seeds that provide a means of controlling and defending against the corn silk fly and phorid fly, and improved maize plants, plant materials and seed produced by these methods. Corn silk flies and phorid flies are highly detrimental and destructive insects damaging maize plants, plant materials and seed during their growing stages in many different geographic regions worldwide. The inventive methods utilize molecular markers to incorporate genes that prove a means for controlling and defending against the corn silk fly and phorid fly into male and female inbred parent maize lines used to produce maize hybrids, or into at least one of the maize parent lines of a hybrid.

Abstract: The invention relates to methods for producing maize plants, plant materials and seeds that provide a means of controlling and defending against the corn silk fly and phorid fly, and improved maize plants, plant materials and seed produced by these methods. Corn silk flies and phorid flies are highly detrimental and destructive insects damaging maize plants, plant materials and seed during their growing stages in many different geographic regions worldwide. The inventive methods utilize molecular markers to incorporate genes that prove a means for controlling and defending against the corn silk fly and phorid fly into male and female inbred parent maize lines used to produce maize hybrids, or into at least one of the maize parent lines of a hybrid.

Abstract: The invention relates to methods for producing maize plants, plant materials and seeds that provide a means of controlling and defending against the corn silk fly and phorid fly, and improved maize plants, plant materials and seed produced by these methods. Corn silk flies and phorid flies are highly detrimental and destructive insects damaging maize plants, plant materials and seed during their growing stages in many different geographic regions worldwide. The inventive methods utilize molecular markers to incorporate genes that prove a means for controlling and defending against the corn silk fly and phorid fly into male and female inbred parent maize lines used to produce maize hybrids, or into at least one of the maize parent lines of a hybrid.

Abstract: The present invention relates to a method for in situ preparation of cyano-bridged coordination polymers as metal nanoparticles within a biocompatible reverse micellar system by mixing at least two reverse micellar systems, each one containing at least one metal salt precursor. The invention also relates to the stabilization of theses nanoparticles by using a biocompatible reverse micellar system. This system takes part of the synthesis as a nanoreactor which comprises at least an acylglycerol, a sterol, lecithin, ethanol and water for the preparation of stable cyano-bridged metal nanoparticles without any use of additional stabilizer agent.

Abstract: The invention provides methods for producing plants, plant materials and seeds that have multiple desirable attributes for consumers of these products, as well as for commercial plant growers, and to improved plants, plant materials and seeds that are produced by these methods. These inventive methods provide hybrid plants, plant materials and seeds having the mutant shrunken-2i (sh2-i) allele incorporated into their genomes, preferably sequentially along with one or more other mutant alleles, such as the sugary-1 (su1), sugary enhancer-1 (se1) and/or shrunken-2 (sh2) alleles, and that have multiple beneficial traits, including an extended sugar retention ability at the post prime eating stage and a significantly enhanced vigor and fitness to the plant, plant material and/or seed during seed germination, seedling emergence from soil, and plant development.

Abstract: Disclosed are techniques for representing and modeling systems in which each system corresponds to an application mode. This may be done for one or more geometries using local and/or non-local couplings. For each application mode, physical quantities are modeled and may be defined using a graphical user interface. Physical properties may be used to model the physical quantities of each system. The physical properties may be defined in terms of numerical values or constants, and mathematical expressions that may include numerical values, space coordinates, time coordinates, and actual physical quantities. Physical quantities and any associated variables may apply to some or all of a geometric domain, and may also be disabled in other parts of a geometrical domain. Partial differential equations describe the physical quantities. One or more application modes may be combined using an automated technique into a combined system of partial differential equations as a multiphysics model.

Abstract: Disclosed are techniques for representing and modeling systems in which each system corresponds to an application mode. This may be done for one or more geometries using local and/or non-local couplings. For each application mode, physical quantities are modeled and may be defined using a graphical user interface. Physical properties may be used to model the physical quantities of each system. The physical properties may be defined in terms of numerical values or constants, and mathematical expressions that may include numerical values, space coordinates, time coordinates, and actual physical quantities. Physical quantities and any associated variables may apply to some or all of a geometric domain, and may also be disabled in other parts of a geometrical domain. Partial differential equations describe the physical quantities. One or more application modes may be combined using an automated technique into a combined system of partial differential equations as a multiphysics model.

Abstract: The invention provides methods for producing plants, plant materials and seeds that have multiple desirable attributes for consumers of these products, as well as for commercial plant growers, and to improved plants, plant materials and seeds that are produced by these methods. These inventive methods provide hybrid plants, plant materials and seeds having the mutant shrunken-2i (sh2-i) allele incorporated into their genomes, preferably sequentially along with one or more other mutant alleles, such as the sugary-1 (su1), sugary enhancer-1 (se1) and/or shrunken-2 (sh2) alleles, and that have multiple beneficial traits, including an extended sugar retention ability at the post prime eating stage and a significantly enhanced vigor and fitness to the plant, plant material and/or seed during seed germination, seedling emergence from soil, and plant development.

Abstract: The invention provides methods for producing plants, plant materials and seeds that receive multiple desirable attributes for consumers of these products, as well as for commercial plant growers, and to improved plants, plant materials and seeds that are produced by these methods. These inventive methods provide hybrid plants, plant materials and seeds having the mutant shrunken-2i (sh2-i) allele incorporated into their genomes sequentially along with one or more other mutant alleles, such as the sugary-1 (su1), sugary enhancer-1 (se1) and/or shrunken-2 (sh2) alleles, and that have multiple beneficial traits, including an extended sugar retention ability at the post prime eating stage and a significantly enhanced vigor and fitness to the plant, plant material and/or seed during seed germination, seedling emergence from soil, and plant development.

Abstract: The invention provides methods for producing plants, plant materials and seeds that have multiple desirable attributes for consumers of these products, as well as for commercial plant growers, and to improved plants, plant materials and seeds that are produced by these methods. These inventive methods provide hybrid plants, plant materials and seeds having the mutant shrunken-2i (sh2-i) allele incorporated into their genomes, preferably sequentially along with one or more other mutant alleles, such as the sugary-1 (su1), sugary enhancer-1 (se1) and/or shrunken-2 (sh2) alleles, and that have multiple beneficial traits, including an extended sugar retention ability at the post prime eating stage and a significantly enhanced vigor and fitness to the plant, plant material and/or seed during seed germination, seedling emergence from soil, and plant development.

Abstract: Disclosed are techniques for representing and modeling systems in which each system corresponds to an application mode. This may be done for one or more geometries using local and/or non-local couplings. For each application mode, physical quantities are modeled and may be defined using a graphical user interface. Physical properties may be used to model the physical quantities of each system. The physical properties may be defined in terms of numerical values or constants, and mathematical expressions that may include numerical values, space coordinates, time coordinates, and actual physical quantities. Physical quantities and any associated variables may apply to some or all of a geometric domain, and may also be disabled in other parts of a geometrical domain. Partial differential equations describe the physical quantities. One or more application modes may be combined using an automated technique into a combined system of partial differential equations as a multiphysics model.

Abstract: The invention provides methods for producing plants, plant materials and seeds that have multiple desirable attributes for consumers of these products, as well as for commercial plant growers, and to improved plants, plant materials and seeds that are produced by these methods. These inventive methods provide hybrid plants, plant materials and seeds having the mutant shrunken-2i (sh2-i) allele incorporated into their genomes, preferably sequentially along with one or more other mutant alleles, such as the sugary-1 (su1), sugary enhancer-1 (se1) and/or shrunken-2 (sh2) alleles, and that have multiple beneficial traits, including an extended sugar retention ability at the post prime eating stage and a significantly enhanced vigor and fitness to the plant, plant material and/or seed during seed germination, seedling emergence from soil, and plant development.

Abstract: The invention provides methods for producing plants, plant materials and seeds that receive multiple desirable attributes for consumers of these products, as well as for commercial plant growers, and to improved plants, plant materials and seeds that are produced by these methods. These inventive methods provide hybrid plants, plant materials and seeds having the mutant shrunken-2i (sh2-i) allele incorporated into their genomes sequentially along with one or more other mutant alleles, such as the sugary-1 (su1), sugary enhancer-1 (se1) and/or shrunken-2 (sh2) alleles, and that have multiple beneficial traits, including an extended sugar retention ability at the post prime eating stage and a significantly enhanced vigor and fitness to the plant, plant material and/or seed during seed germination, seedling emergence from soil, and plant development.

Abstract: Disclosed are techniques for representing and modeling one or more systems in which each system corresponds to an application mode. This may be done for one or more geometries using local and/or non-local couplings. For each application mode, physical quantities are modeled and may be defined using a graphical user interface. Physical properties may be used to model the physical quantities of each system. The physical properties may be defined in terms of numerical values or constants, and mathematical expressions that may include numerical values, space coordinates, time coordinates, and actual physical quantities. Physical quantities and any associated variables may apply to some or all of a geometric domain, and may also be disabled in other parts of a geometrical domain. Partial differential equations describe the physical quantities. One or more application modes may be combined using an automated technique into a combined system of partial differential equations as a multiphysics model.

Abstract: Disclosed are techniques for representing and modeling one or more systems in which each system corresponds to an application mode. This may be done for one or more geometries using local and/or non-local couplings. For each application mode, physical quantities are modeled and may be defined using a graphical user interface. Physical properties may be used to model the physical quantities of each system. The physical properties may be defined in terms of numerical values or constants, and mathematical expressions that may include numerical values, space coordinates, time coordinates, and actual physical quantities. Physical quantities and any associated variables may apply to some or all of a geometric domain, and may also be disabled in other parts of a geometrical domain. Partial differential equations describe the physical quantities. One or more application modes may be combined using an automated technique into a combined system of partial differential equations as a multiphysics model.

Abstract: Disclosed are techniques for representing and modeling one or more systems in which each system corresponds to an application mode. This may be done for one or more geometries using local and/or non-local couplings. For each application mode, physical quantities are modeled and may be defined using a graphical user interface. Physical properties may be used to model the physical quantities of each system. The physical properties may be defined in terms of numerical values or constants, and mathematical expressions that may include numerical values, space coordinates, time coordinates, and actual physical quantities. Physical quantities and any associated variables may apply to some or all of a geometric domain, and may also be disabled in other parts of a geometrical domain. Partial differential equations describe the physical quantities. One or more application modes may be combined using an automated technique into a combined system of partial differential equations as a multiphysics model.

Abstract: Disclosed are techniques for representing and modeling one or more systems in which each system corresponds to an application mode. This may be done for one or more geometries using local and/or non-local couplings. For each application mode, physical quantities are modeled and may be defined using a graphical user interface. Physical properties may be used to model the physical quantities of each system. The physical properties may be defined in terms of numerical values or constants, and mathematical expressions that may include numerical values, space coordinates, time coordinates, and actual physical quantities. Physical quantities and any associated variables may apply to some or all of a geometric domain, and may also be disabled in other parts of a geometrical domain. Partial differential equations describe the physical quantities. One or more application modes may be combined using an automated technique into a combined system of partial differential equations as a multiphysics model.

Abstract: Disclosed are techniques for representing and modeling one or more systems in which each system corresponds to an application mode. This may be done for one or more geometries using local and/or non-local couplings. For each application mode, physical quantities are modeled and may be defined using a graphical user interface. Physical properties may be used to model the physical quantities of each system. The physical properties may be defined in terms of numerical values or constants, and mathematical expressions that may include numerical values, space coordinates, time coordinates, and actual physical quantities. Physical quantities and any associated variables may apply to some or all of a geometric domain, and may also be disabled in other parts of a geometrical domain. Partial differential equations describe the physical quantities. One or more application modes may be combined using an automated technique into a combined system of partial differential equations as a multiphysics model.