Abstract: The invention is directed to a promoter, designated MuB, sequences which hybridize to same and functional fragments thereof. The regulatory element of the invention provide improved expression in plants of operably linked nucleotide sequences. Expression vectors with the regulatory element is the subject of the invention, which may further include an operably linked nucleotide sequence. The invention is further directed to transformed plant tissue including the nucleotide sequence and to transformed plants and seeds thereof. The regulatory element is useful for driving gene or antisense expression or the like for the purpose of imparting agronomically useful traits such as, but not limited to, increase in yield, disease resistance, insect resistance, herbicide tolerance, drought tolerance and salt tolerance in plants.

Abstract: This invention relates to glyphosate-resistant transgenic plants and methods of making the same. In a preferred embodiment, a DNA fragment which comprises an EPSPS 5? regulatory sequence and a glyphosate-resistant EPSPS coding sequence is introduced into regenerable plant cells. The encoded EPSPS has a chloroplast transit peptide. The DNA fragment does not contain a non-EPSPS enhancer. Cells are selected for stable transformation, and the selected cells can be used to regenerate glyphosate-resistant transgenic plants. The DNA fragment used for transformation preferably comprises a modified plant genomic sequence, such as SEQ ID NO: 2, SEQ ID NO:4 or SEQ ID NO: 6. In one embodiment, two DNA fragments of this invention are stably transformed into a plant to confer glyphosate-resistance.

Abstract: Nucleotide sequences mediating male fertility in plants are described, with DNA molecule and amino acid sequences set forth. Promoter sequences and their essential regions are also identified. The nucleotide sequences are useful in mediating male fertility in plants. In one such method, the homozygous recessive condition of male sterility causing alleles is maintained after crossing with a second plant, where the second plant contains a restoring transgene construct having a nucleotide sequence which reverses the homozygous condition. The restoring sequence is linked with a hemizygous sequence encoding a product inhibiting formation or function of male gametes. The maintainer plant produces only viable male gametes which do not contain the restoring transgene construct. Increase of the maintainer plant is also provided by self-fertilization, and selection for seed or plants which contain the construct.

Abstract: Soybean volatile compounds, soybean aphid-induced volatile compounds and soybean aphid sex pheromones are semiochemicals of the invention used to suppress soybean aphid population. Methyl salicylate is an embodiment of a soybean aphid-induced volatile compound useful in the invention. Benzaldehyde is an embodiment of a soybean host plant volatile compound useful in the invention. Also useful as sex pheromones are nepetalactol and nepetalactone. The compounds may be blended in a preferred embodiment.

Abstract: The invention relates to production of proinsulin or insulin in seeds of monocot plants by transformation of monocot plants with a nucleotide sequence encoding proinsulin or insulin under the control of a seed specific promoter.

Abstract: The present invention provides compositions and methods for regulating expression of heterologous nucleotide sequences in a plant. Compositions are novel nucleotide sequences for a pericarp-preferred promoter and terminator isolated from the maize lipid transfer protein 1 coding region. A method for expressing a heterologous nucleotide sequence in a plant using the regulatory sequences disclosed herein is provided. The method comprises transforming a plant cell to comprise a heterologous nucleotide sequence operably linked to one or more of the regulatory sequences of the present invention and regenerating a stably transformed plant from the transformed plant cell.

Abstract: Increased expression of heterologous proteins in a plant is achieved by introducing the nucleotide sequence encoding the heterologous protein into a plant that has high oil seed content compared to low oil seed and/or is introduced into a plant having reduced alcohol soluble proteins in the endosperm. The nucleotide sequence may be introduced by direct transformation into the plant, or by direct transformation into another plant, and crossing with the high oil plant or plant have reduced levels of alcohol soluble protein in the endosperm. Further, the nucleotide sequences may be introduced into one or both of the high oil plant and the plant having reduced levels of alcohol soluble proteins, and the plants may be crossed to result in a progeny having even further increased expression levels of the heterologous protein.

Abstract: Nucleotide sequences mediating male fertility in plants are described, with DNA molecule and amino acid sequences set forth. Promoter sequences and their essential regions are also identified. The nucleotide sequences are useful in mediating male fertility in plants.

Abstract: Methods are provided for modulating seed oil content in plants. Specifically, the invention relates to methods of increasing seed oil content in plants by reducing or eliminating the expression of homeodomain glabara2 (HDGL2) in a plant of interest, or changing seed composition by increasing expression of HDGL2 in a plant. Seeds and plants produced by the present methods are also provided.

Abstract: Plants are engineered to express proinsulin or insulin. The plants can be used as a source of the protein for a variety of purposes. Plant tissue can be orally administered to animals to replace the necessity of injection of insulin. Alternatively, the protein can be extracted from plant tissue and delivered to animals. Plant produced proteins can also provide a less expensive and more readily available source of the protein as reagents or in other experimentation involving insulin proteins.

Abstract: The invention is directed to a soybean polyubiquitin promoter, polyubiquitin terminator, sequences which hybridize to same and functional fragments thereof. The regulatory element of the invention provide improved expression in plants of operably linked nucleotide sequences. Expression vectors with the regulatory element is the subject of the invention, which may further include an operably linked nucleotide sequence. The invention is further directed to transformed plant tissue including the nucleotide sequence and to transformed plants and seeds thereof. The regulatory element is useful for driving a nucleotide sequence, for example a gene, or antisense expression or the like for the purpose of imparting agronomically useful traits such as, but not limited to, increase in yield, disease resistance, insect resistance, herbicide tolerance, drought tolerance and salt tolerance in plants.

Abstract: A nucleotide sequence and encoded amino acid is shown which is a transcription factor that can be introduced into plants. The expression of the sequence of this invention in plants results in improved stress tolerance compared to plants not expressing the sequence.

Abstract: Plants are produced that express an amino acid sequence that, when administered to a fish, produce an antigenic or immune response in the fish. The amino acid sequence in one embodiment is an antigen from an organism that causes pathology in fish. The plant tissue may be fed to the fish, or mixed with other materials and fed to fish, or extracted and administered to the fish.

Abstract: Promoter sequences and their essential regions are identified which provide for male tissue-preferred expression. The nucleotide sequences are useful in mediating male fertility in plants.

Abstract: A regulatory region is shown, a nucleotide sequence of approximately 3kb which provides improved seed preferred, and particularly embryo preferred expression in plants. Methods of use are also shown in preferentially expressing a heterologous protein to the embryo tissue of a plant. The sequence is particularly useful in expression of heterologous proteins to the embryo of monocotyledonous plants, particularly cereals, and maize.

Abstract: A method for extraction of heterologous protein from monocotyledonous plant seed comprises extracting the germ portion of the seed and extracting and purifying the protein from the germ. Enhanced expression in the germ is provided, and allows for improved efficiency in production, and cost savings. Directing expression to the germ portion further increases expression levels of the protein. The ubiquitin promoter preferentially directs expression to the germ portion of plant seed.

Abstract: A globulin-1 regulatory region is shown, a nucleotide sequence of approximately 3 kb which provides improved seed preferred, and particularly embryo preferred expression in plants. Methods of use are also shown in preferentially expressing a heterologous protein to the embryo tissue of a plant. The sequence is particularly useful in expression of heterologous proteins to the embryo of monocotyledonous plants, particularly cereals, and maize.

Abstract: The present invention relates to isolated male tissue-preferred regulatory sequences from Ms45 gene. The invention also relates to the use of Ms45 gene male tissue-preferred regulatory sequences in mediating male fertility in a plant, and in producing hybrid seed. The Ms45 male tissue-preferred regulatory region can be operably linked to exogenous genes encoding cytotoxins or inhibitory molecules. The invention also relates to plant cells, plant tissue and plants that contain the MS45 gene regulatory sequences.

Abstract: Nucleotide sequences which are male tissue-preferred promoters and male tissue-preferred regulatory regions are disclosed, as are sequences essential to initiating transcription of select genes. The sequences are useful in mediating male fertility in plants.

Abstract: A globulin-2 regulatory region is shown, which provides improved seed preferred, and particularly embryo preferred expression in plants. Methods of use are also shown in preferentially expressing a heterologous protein to the embryo tissue of a plant. The sequence is particularly useful in expression of heterologous proteins to the embryo of monocotyledonous plants, particularly cereals, and maize.