Abstract: The present inventors have discovered that chorismate mutase and chorismate synthase are essential for plant growth. Specifically, the inhibition of chorismate mutase or chorismate synthase gene expression in plant seedlings results in severe chlorosis, reduced growth and developmental abnormalities. The inventors have proven that chorismate synthase and chorismate mutase can be used as targets for the identification of herbicides. Thus, the invention provides methods for the identification of chemicals that modulate chorismate synthase and chorismate mutase biochemical reactions. The methods of the invention are useful for the identification of herbicides and for the inhibition of plant growth and development.

Abstract: Morphological markers are used in a method of visually identifying plants transformed with a nucleotide sequence (e.g., a heterologous gene). The nucleotide sequence is transformed into a plant that exhibits an abnormal phenotype for a morphological marker. If the transformation of the plant is successful, the progeny of the transformed plant will exhibit a normal phenotype. In a preferred embodiment, the plant is Arabidopsis and the morphological marker is Gl1, which is associated with trichome production on plant leaves. The method is also useful for identifying plants that are homozygous for the transformed gene, and for identifying transformants in the T2 generation that are true crosses, rather than self-crosses.

Abstract: The present inventors have discovered that Mg-chelatase is essential for the growth of Arabidopsis. Specifically, the inhibition of Mg-chelatase CHL H gene expression in Arabidopsis seedlings results in varying levels of chlorosis (yellowing), significantly reduced growth and developmental abnormalities. Thus, Arabidopsis Mg-chelatase can be used as a target for the identification of herbicides. Accordingly, the present invention provides methods for the identification of compounds that modulate Arabidopsis Mg-chelatase expression or activity, comprising: contacting a compound with a Arabidopsis Mg-chelatase, or a subunit thereof, and detecting the presence and/or absence of binding between said compound and said Mg-chelatase, or detecting a change in Mg-chelatase expression or activity. The methods of the invention are useful for the identification of herbicides and other compounds that can modulate plant growth and development.

Abstract: The present inventors have discovered that chorismate mutase and chorismate synthase are essential for plant growth. Specifically, the inhibition of chorismate mutase or chorismate synthase gene expression in plant seedlings results in severe chlorosis, reduced growth and developmental abnormalities. Thus, in one aspect the invention provides compositions for the modulation of plant growth or development comprising chorismate synthase and chorismate mutase antisense and sense polynucleotides, dsRNA and ribozymes, and related expression cassettes and vectors. The compositions of the invention are particularly useful for the modulation and inhibition of plant growth. The invention further provides plants, plant cells, and seeds containing the polynucleotides of the invention.

Abstract: The present inventors have discovered that chorismate mutase and chorismate synthase are essential for plant growth. Specifically, the inhibition of chorismate mutase or chorismate synthase gene expression in plant seedlings results in severe chlorosis, reduced growth and developmental abnormalities. Thus, in one aspect the invention provides compositions for the modulation of plant growth or development comprising chorismate synthase and chorismate mutase antisense and sense polynucleotides, dsRNA and ribozymes, and related expression cassettes and vectors. The compositions of the invention are particularly useful for the modulation and inhibition of plant growth. The invention further provides plants, plant cells, and seeds containing the polynucleotides of the invention. The inventors have proven that chorismate synthase and chorismate mutase can be used as targets for the identification of herbicides.

Abstract: The present inventors have discovered that pyruvate orthophosphate dikinase (PPDK) is essential for plant growth. Specifically, the inhibition PPDK gene expression in plant seedlings results in significant developmental abnormalities, including abnormal cotyledon development, abnormal or aborted primary leaf development and significantly reduced growth. Thus, PPDK can be used as a target for the identification of herbicides. Accordingly, the present invention provides methods for the identification of compounds that inhibit PPDK expression or activity, comprising: contacting a compound with a PPDK and detecting the presence and/or absence of binding between said compound and said a PPDK, or detecting a decrease in PPDK expression or activity. The methods of the invention are useful for the identification of herbicides.

Abstract: A spray booth is provided for reproducible application of agrichemicals to plants. The spray booth comprises a support member for supporting a plurality of plants, a cover having a plurality of sides and a top and forming an enclosure with the support member for enclosing the plants therein, an agrichemical source for providing a pressurized agrichemical, and a spray arm having a spray mechanism operably connected to the agrichemical source. Preferably, the spray arm is disposed within the enclosure and over the support member such that it extends across the width of the support member. The spray mechanism is used for spraying a predetermined amount of the agrichemical therefrom in the form of a fine mist along the length of the spray arm. Advantageously, at least one of the support member and the spray arm is laterally moveable relative to the other such that the plants disposed both lengthwise and widthwise on the support member are substantially uniformly misted with the agrichemical.

Abstract: Morphological markers are used in a method of visually identifying plants transformed with a nucleotide sequence (e.g., a heterologous gene). The nucleotide sequence is transformed into a plant that exhibits an abnormal phenotype for a morphological marker. If the transformation of the plant is successful, the progeny of the transformed plant will exhibit a normal phenotype. In a preferred embodiment, the plant is Arabidopsis and the morphological marker is Gl1, which is associated with trichome production on plant leaves. The method is also useful for identifying plants that are homozygous for the transformed gene, and for identifying transformants in the T2 generation that are true crosses, rather than self-crosses.