Abstract: A series of independent human-induced non-transgenic mutations found at one or more of the SBEII genes of wheat; wheat plants having these mutations in one or more of their SBEII genes; and a method of creating and finding similar and/or additional mutations of SBEII by screening pooled and/or individual wheat plants. The seeds and flour from the wheat plants of the present invention exhibit an increase in amylose and resistant starch without having the inclusion of foreign nucleic acids in their genomes. Additionally, the wheat plants of the present invention exhibit altered SBEII activity without having the inclusion of foreign nucleic acids in their genomes.

Abstract: A series of independent human-induced non-transgenic mutations found at one or more of the SBEII genes of wheat; wheat plants having these mutations in one or more of their SBEII genes; and a method of creating and finding similar and/or additional mutations of SBEII by screening pooled and/or individual wheat plants. The seeds and flour from the wheat plants of the present invention exhibit an increase in amylose and resistant starch without having the inclusion of foreign nucleic acids in their genomes. Additionally, the wheat plants of the present invention exhibit altered SBEII activity without having the inclusion of foreign nucleic acids in their genomes.

Abstract: The present invention provides a series of independent human-induced, non-transgenic mutations found in at least one tomato ?-galactosidase 4 gene, tomato plants having these mutations in at least one of their tomato ?-galactosidase 4 genes, and a method of creating and identifying similar and/or additional mutations in the tomato ?-galactosidase 4 gene by screening pooled and/or individual tomato plants. Tomato plants identified and produced in accordance with the present invention have fruit that are firmer when ripe with reduced post-harvest softening compared to fruit from wild type tomato plants as a result of non-transgenic mutations in at least one of their tomato ?-galactosidase 4 genes.

Abstract: A series of independent human-induced non-transgenic mutations found in an expansin gene (LeExp1) of tomato; tomato plants having these mutations in their LeExp1 genes; and a method of creating and identifying similar and/or additional mutations in the LeExp1 gene by screening pooled and/or individual tomato plants. The tomato plants of the present invention exhibit fruit that soften more slowly post-harvest without having the inclusion of foreign nucleic acids in their genomes.

Abstract: A series of independent human-induced, non-transgenic mutations found in at least one non-ripening (NOR) gene of tomato; tomato plants having these mutations in at least one of their NOR genes; and a method of creating and identifying similar and/or additional mutations in the NOR gene by screening pooled and/or individual tomato plants. The tomato plants of the present invention exhibit fruit that ripen more slowly, rot more slowly, are firmer, and have a longer shelf life post-harvest as a result of non-transgenic mutations in at least one of their NOR genes.

Abstract: When constructing a unit building having a middle scale or more such as especially an apartment house, a long and large size building unit capable of reducing construction period while increasing construction efficiency and being economically provided can be achieved. Detachable temporary reinforcing members 2 are provided on both of the short side surfaces of the building unit body 1A, respectively. The temporary reinforcing member 2 has lower end portion on which a projecting portion 3 is downwardly projected.

Abstract: A series of independent non-transgenic mutations found at the waxy loci of wheat; wheat plants having these mutations in their waxy loci; and a method of creating and finding similar and/or additional mutations of the waxy by screening pooled and/or individual wheat plants. The wheat plants of the present invention exhibiting altered waxy activity in the wheat without having the inclusion of foreign nucleic acids in their genomes. The invention also includes food and non-food products as well as non-food products that incorporate seeds from the wheat plants having non-transgenic mutations in one or more waxy genes.

Abstract: Methods of increasing nitrogen utilization efficiency in monocot plants through genetic modification to increase the levels of alanine aminotransferase expression and plants produced there from are described. In particular, methods for increasing the biomass and yield of transgenic monocot plants grown under nitrogen limiting conditions compared to non-transgenic plants are described. In this way, monocot plants may be produced that maintain a desired yield while reducing the need for high levels of nitrogen application.

Abstract: Methods of increasing nitrogen utilization efficiency in monocot plants through genetic modification to increase the levels of alanine aminotransferase expression and plants produced there from are described. In particular, methods for increasing the biomass and yield of transgenic monocot plants grown under nitrogen limiting conditions compared to non-transgenic plants are described. In this way, monocot plants may be produced that maintain a desired yield while reducing the need for high levels of nitrogen application.

Abstract: A series of independent human-induced non-transgenic mutations found at one or more of the SBEII genes of wheat; wheat plants having these mutations in one or more of their SBEII genes; and a method of creating and finding similar and/or additional mutations of SBEII by screening pooled and/or individual wheat plants. The seeds and flour from the wheat plants of the present invention exhibit an increase in amylose and resistant starch without having the inclusion of foreign nucleic acids in their genomes. Additionally, the wheat plants of the present invention exhibit altered SBEII activity without having the inclusion of foreign nucleic acids in their genomes.

Abstract: A lamp shade includes first and second interlocking shade sections. Each of the first and second interlocking shade sections is made of a plastic material and has a different color than the other section. The lamp shade also includes a bulb socket supported by the first interlocking shade section and at least partially surrounded by a plurality of ventilation holes. One of the first and second interlocking shade sections has an annular recess and a set of spaced fingers within the annular recess. The other of the first and second interlocking shade sections has a radially inwardly directed annular flange. The annular flange including a set of slots sufficient in number and sized so as to receive the fingers, whereby the fingers are received in and rotatable relative to the slots to interlock the first and second interlocking shade sections.

Abstract: Non-naturally occurring soybean plants and seeds having reduced isoflavones are provided. A series of independent non-transgenic human-induced mutations found in one or more isoflavone synthase genes of soybean; soybean plants having these mutations in one or more isoflavone synthase genes; and a method of creating and finding similar and/or additional mutations of the isoflavone synthase gene by screening pooled and/or individual DNA of soybean plants. The results are soybean plants and seeds having reduced isoflavones.

Abstract: A lamp shade includes first and second interlocking shade sections. Each of the first and second interlocking shade sections is made of a plastic material and has a different color than the other section. The lamp shade also includes a bulb socket supported by the first interlocking shade section and at least partially surrounded by a plurality of ventilation holes. One of the first and second interlocking shade sections has an annular recess and a set of spaced fingers within the annular recess. The other of the first and second interlocking shade sections has a radially inwardly directed annular flange. The annular flange including a set of slots sufficient in number and sized so as to receive the fingers, whereby the fingers are received in and rotatable relative to the slots to interlock the first and second interlocking shade sections.

Abstract: Methods of increasing nitrogen utilization efficiency in monocot plants through genetic modification to increase the levels of alanine aminotransferase expression and plants produced there from are described. In particular, methods for increasing the biomass and yield of transgenic monocot plants grown under nitrogen limiting conditions compared to non-transgenic plants are described. In this way, monocot plants may be produced that maintain a desired yield while reducing the need for high levels of nitrogen application.

Abstract: The present invention relates to compositions and methods for preparing gamma-linoleic acid (GLA) in safflower plants, particularly from seeds of safflower. Nucleic acid sequences and constructs encoding one or more fatty acid desaturase sequences are used to generate transgenic safflower plants that contain and express one or more of these sequences and produce high levels of GLA in safflower seeds. Provided are transgenic safflower plants and seeds that produce high levels of GLA. Additionally provided are oils produced from seeds of this invention. The invention also relates to methods of treating a variety of diseases including nervous system disorders, inflammatory conditions, cancer and cardiovascular disorders using the oils of this invention.

Abstract: A series of independent human-induced, non-transgenic mutations found in at least one non-ripening (NOR) gene of tomato; tomato plants having these mutations in at least one of their NOR genes; and a method of creating and identifying similar and/or additional mutations in the NOR gene by screening pooled and/or individual tomato plants. The tomato plants of the present invention exhibit fruit that ripen more slowly, rot more slowly, are firmer, and have a longer shelf life post-harvest as a result of non-transgenic mutations in at least one of their NOR genes.

Abstract: Methods are provided by which Oryza sativa plants and seeds thereof may be modified to express a coding region of interest using a promoter sequence operatively linked to the coding region. The promoter sequence is an isolated Oryza sativa antiquitin (OsAnt1) promoter sequence including SEQ ID NO: 1. The coding region of interest may encode a nitrogen utilization protein, suitably alanine aminotransferase. Methods to develop Oryza sativa plants that have increased biomass and seed yield are also presented. Furthermore, Oryza sativa plants may be produced that maintain a desired yield while reducing the need for high levels of nitrogen application.

Abstract: The present invention provides a series of independent human-induced, non-transgenic mutations found in at least one tomato ?-galactosidase 4 gene, tomato plants having these mutations in at least one of their tomato ?-galactosidase 4 genes, and a method of creating and identifying similar and/or additional mutations in the tomato ?-galactosidase 4 gene by screening pooled and/or individual tomato plants. Tomato plants identified and produced in accordance with the present invention have fruit that are firmer when ripe with reduced post-harvest softening compared to fruit from wild type tomato plants as a result of non-transgenic mutations in at least one of their tomato ?-galactosidase 4 genes.

Abstract: The present invention relates to compositions and methods for preparing gamma-linoleic acid (GLA) in safflower plants, particularly from seeds of safflower. Nucleic acid sequences and constructs encoding one or more fatty acid desaturase sequences are used to generate transgenic safflower plants that contain and express one or more of these sequences and produce high levels of GLA in safflower seeds. Provided are transgenic safflower plants and seeds that produce high levels of GLA. Additionally provided are oils produced from seeds of this invention. The invention also relates to methods of treating a variety of diseases including nervous system disorders, inflammatory conditions, cancer and cardiovascular disorders using the oils of this invention.

Abstract: A series of independent human-induced non-transgenic mutations found in an expansin gene (LeExp1) of tomato; tomato plants having these mutations in their LeExp1 genes; and a method of creating and identifying similar and/or additional mutations in the LeExp1 gene by screening pooled and/or individual tomato plants. The tomato plants of the present invention exhibit fruit that soften more slowly post-harvest without having the inclusion of foreign nucleic acids in their genomes.