The invention provides recombinant DNA molecules useful for providing efficient expression of proteins in transgenic plants, as well as compositions and methods for using the recombinant DNA molecules. In particular embodiments, the invention provides recombinant DNA molecules and constructs comprising sequences encoding transit peptides and operably linked sequences conferring herbicide tolerance.

Provided are plants having glyphosate resistance comprising a nucleic acid encoding a polypeptide having at least 90% identity with SEQ ID NO:1, and parts, organs, seeds, and/or cells of such plants. Also provided are methods for making and growing such a plant, and methods of controlling weeds in a field or area under cultivation containing such plants. For example, some methods comprise the application of multiple herbicides to such plants.

Polypeptides and recombinant DNA molecules useful for conferring tolerance to AOPP herbicides, phenoxy acid herbicides, and pyridinyloxy acid herbicides are provided in the present invention, as well as herbicide tolerant transgenic plants, seeds, cells, and plant parts containing the recombinant DNA molecules, as well as methods of using the same.

This disclosure concerns compositions and methods for targeting peptides, polypeptides, and proteins to plastids of plastid-containing cells. In some embodiments, the disclosure concerns chloroplast transit peptides that may direct a polypeptide to a plastid, and nucleic acid molecules encoding the same. In some embodiments, the disclosure concerns methods for producing a transgenic plant material (e.g., a transgenic plant) comprising a chloroplast transit peptide, as well as plant materials produced by such methods, and plant commodity products produced therefrom.

This disclosure concerns compositions and methods for targeting peptides, polypeptides, and proteins to plastids of plastid-containing cells. In some embodiments, the disclosure concerns chloroplast transit peptides that may direct a polypeptide to a plastid, and nucleic acid molecules encoding the same. In some embodiments, the disclosure concerns methods for producing a transgenic plant material (e.g., a transgenic plant) comprising a chloroplast transit peptide, as well as plant materials produced by such methods, and plant commodity products produced therefrom.

This disclosure concerns compositions and methods for targeting peptides, polypeptides, and proteins to plastids of plastid-containing cells. In some embodiments, the disclosure concerns chloroplast transit peptides that may direct a polypeptide to a plastid, and nucleic acid molecules encoding the same. In some embodiments, the disclosure concerns methods for producing a transgenic plant material (e.g., a transgenic plant) comprising a chloroplast transit peptide, as well as plant materials produced by such methods, and plant commodity products produced therefrom.

The present disclosure relates to a novel class of EPSPS enzymes, and nucleic acids useful in encoding the same.

This disclosure concerns compositions and methods for targeting peptides, polypeptides, and proteins to plastids of plastid-containing cells. In some embodiments, the disclosure concerns chloroplast transit peptides that may direct a polypeptide to a plastid, and nucleic acid molecules encoding the same. In some embodiments, the disclosure concerns methods for producing a transgenic plant material (e.g., a transgenic plant) comprising a chloroplast transit peptide, as well as plant materials produced by such methods, and plant commodity products produced therefrom.

Provided are enhanced high yield production systems for producing terpenes in plants via the expression of fusion proteins comprising various combinations of geranyl diphosphate synthase large and small subunits and limonene synthases. Also provided are engineered oilseed plants that accumulate monoterpene and sesquiterpene hydrocarbons in their seeds, as well as methods for producing such plants, providing a system for rapidly engineering oilseed crop production platforms for terpene-based biofuels.

The invention described herein relates to a novel non-naturally occurring, elastomeric animal-free recombinant fusion biopolymers produced in plants through transient expression. More specifically, the present invention describes polynucleotides encoding fusion proteins of a non-human scleroprotein with a human collagen, wherein said fusion protein is capable of forming hydroxylated triple helix fibers. In particular fusion proteins of a Spidroin like protein with a human collagen. More in particular, eithera Spidroin-I/Collagen Type-I fusion protein, capable of forming hydroxylated triple helix fibers, or a Fibroin-III/Collagen Type-I fusion protein, capable of forming hydroxylated triple helix fibers. The present invention has improved properties (e.g., thermostability, young's modulus, cell adhesion, degradability, and the like) versus that of native Collagen Type-I. Also described are methods for use thereof, such as the use of electrospun scaffolds which are particularly well suited for biomedical or cosmetic applications as defined in the claims.