Abstract: This invention is directed to a regulatory region obtained from a wheat aleurone gene LtpW1. This regulatory region, truncated derivatives, mutations, or deletions of this regulatory region, can be used to express heterologous genes of interest within aleurone cells of a plant. Furthermore, this invention is directed to a truncated LtpW1 regulatory region that exhibits constitutive activity with both monocot and dicot plants. This invention is also directed to vectors comprising these regulatory regions operatively linked with a heterologous gene of interest, as well as plant cell cultures and transgenic plants comprising these vectors. A method for the preparation of a plant using the regulatory regions of this invention are also disclosed.

Abstract: An nucleotide sequence and that exhibits regulatory element activity is disclosed. The nucleotide sequence may be defined by SEQ ID NO:22, a nucleotide sequence that hybridizes to the nucleic acid sequence of SEQ ID NO:22, or a compliment thereof. Also disclosed is a chimeric construct comprising the nucleotide sequence operatively linked with a coding region of interest. A method of expressing a coding region of interest within a plant by introducing the chimeric construct described above, into the plant, and expressing the coding region of interest is also provided. Also disclosed are plants, seed, or plant cells comprising the chimeric construct as defined above.

Abstract: The present invention is directed to translational regulatory elements that mediate the amount of protein produced within a host capable of expressing a construct comprising one or more translational regulatory elements in operative association with a gene of interest. These translational regulatory elements were derived from T1275 (tCUP) and exhibit a high degree of similarity with members of the RENT family of repetitive elements. Translational regulatory elements are disclosed that either increase or decrease he amount of protein produced within the host organism. These translational elements are operative in a wide range of hosts including plant, animals, yeast, fungi and bacteria. Analogs, derivatives and fragments of these translational elements are also disclosed.

Abstract: The present invention provides a stress resistant plant in which a cell death suppressing gene is introduced.

Abstract: The present invention is directed to translational regulatory elements that mediate the amount of protein produced within a host capable of expressing a construct comprising one or more translational regulatory elements in operative association with a gene of interest. These translational regulatory elements were derived from T1275 (tCUP) and exhibit a high degree of similarity with members of the RENT family of repetitive elements. Translational regulatory elements are disclosed that either increase or decrease he amount of protein produced within the host organism. These translational elements are operative in a wide range of hosts including plant, animals, yeast, fungi and bacteria. Analogs, derivatives and fragments of these translational elements are also disclosed.

Abstract: A mitogen-activated protein (MAP) kinase kinase gene, tMEK2, was isolated from tomato cv. Bonny Best. By mutagenesis, a permanently-active variant, tMEK2MUT, was created. Both wild type tMEK2 and mutant tMEK2MUT were driven by a strong constitutive promoter, tCUP&Dgr;, in a tomato protoplast transient expression system. Pathogenesis-related genes, PR1b1 and PR3, and a wound-inducible gene, ER5, were activated by tMEK2MUT expression revealing the convergence of the signal transduction pathways for pathogen attack and mechanical stress at the level of MAPKK. Activation of biotic and abiotic stress response genes downstream of tMEK2 occurred through divergent pathways involving at least two classes of mitogen-activated protein kinase. This study shows that tMEK2 may play an important role in the interaction of signal transduction pathways that mediate responses to both biotic (eg disease) and abiotic (wound responsiveness) stresses.

Abstract: The present invention provides a stress resistant plant in which a cell death suppressing gene is introduced.

Abstract: A plurality of viable plant regenerants can be produced by culturing an intact plant seed of in the presence of cytokinin and/or auxin growth factors. The growth factor is preferably benzylaminopurine and thiadiziron. The plant seed is preferably a pea, bean, geranium, peanut, grass pea, chickpea or lentil seed.