The invention relates to methods of increasing stomatal function in plants, which as a result leads to an increase in carbon assimilation and/or water use efficiency and ultimately an increase in yield. In particular the methods of the invention relate to the expression of light-gated potassium channels in the stomatal complex. Also described are genetically altered plants characterised by the above phenotype as well as methods of producing such plants.

Provided are compositions and methods for expressing a transgene in plant cells and/or plant tissues using regulatory elements, including the promoters, 5′UTR, 3′ UTRs, and/or terminators isolated from Glycine max chlorophyll binding Ab genes.

The invention provides recombinant DNA molecules and constructs, as well as their nucleotide sequences, useful for modulating gene expression in plants. The invention also provides transgenic plants, plant cells, plant parts, and seeds comprising the recombinant DNA molecules operably linked to heterologous transcribable DNA molecules, as are methods of their use.

The present disclosure provides approaches for reducing tobacco-specific nitrosamines (TSNAs) in tobacco. Some of these approaches include genetically engineering tobacco plants to increase one or more antioxidants, increase oxygen radicle absorbance capacity (ORAC), or reduce nitrite. Also provided are methods and compositions for producing modified tobacco plants and tobacco products therefrom comprising reduced TSNAs.

The present disclosure provides the identification of genes involved in sucker growth in tobacco. Also provided are promoters that are preferentially active in tobacco axillary buds. Also provided are modified tobacco plants comprising reduced or no sucker growth. Also provided are methods and compositions for producing modified tobacco plants comprising reduced or no sucker growth.

Compositions and methods for improving plant growth are provided herein. Polynucleotides, polypeptides, and expression constructs for expressing transcription factors (TFs) whose expression may improve agronomic properties including but not limited to crop yield, biotic and abiotic stress tolerance, and early vigor, plants comprising the polynucleotides, polypeptides, and expression constructs, and methods of producing transgenic plants are also provided.

The invention provides recombinant DNA molecules and constructs, as well as their nucleotide sequences, useful for modulating gene expression in plants. The invention also provides transgenic plants, plant cells, plant parts, and seeds comprising the recombinant DNA molecules operably linked to heterologous transcribable DNA molecules, as are methods of their use.

Provided are compositions and methods for expressing a transgene in plant cells and/or plant tissues using the regulatory elements, including the promoters, 5′UTR, 3′ UTRs, and/or terminators isolated from Glycine max rubisco activase genes.

The invention provides recombinant DNA molecules and constructs, as well as their nucleotide sequences, useful for modulating gene expression in plants. The invention also provides transgenic plants, plant cells, plant parts, and seeds comprising the recombinant DNA molecules operably linked to heterologous transcribable DNA molecules, as are methods of their use.

This invention provides molecular constructs and methods for the temporally specific control of gene expression in plants or in plant pests or pathogens. More specifically, this invention provides plant miRNA genes having novel circadian expression patterns that are useful for designing recombinant DNA constructs for temporally specific expression of at least one gene. Also provided are non-natural transgenic plant cells, plants, and seeds containing in their genome a recombinant DNA construct of this invention.