The present invention relates to plants, particularly crop plants, having enhanced tolerance to biotic stress, particularly enhanced tolerance to stress caused by a wide range of plant pathogens. The tolerant plants of the invention show enhanced expression of Arabidopsis S30 protein or of homologs or orthologs thereof.

This invention relates to compositions and methods for modifying root architecture in a plant through modification of endogenous DEEPER ROOTING 1 (DRO1) nucleic acids. The invention further relates to plants produced using the methods and compositions of the invention.

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.

The invention provides methods and compositions for identifying transgenic seed that contain a transgene of interest, but lack a marker gene. Use of an identification sequence that results in a detectable phenotype increases the efficiency of screening for seed and plants in which transgene sequences not linked to a gene of interest have segregated from the sequence encoding a gene of interest.

The invention relates to a modified PIN4 gene, the wild type of which is as identified in SEQ ID No. 1, encoding the protein of SEQ ID No. 5, or the wild type of which encodes a protein that has a sequence similarity of at least 80% to SEQ ID No. 5, which modified PIN4 gene encodes a protein that comprises an amino acid change as a result of the modification, and which modified protein is capable of inducing parthenocarpic fruit set when present in a plant. The invention also relates to plants and fruits that carry the gene. Such plants are capable of parthenocarpic fruit set and the fruits do not contain seeds. The invention further relates to use of the gene in breeding and producing plants capable of parthenocarpic fruit set.

The invention relates to methods and compositions for modifying a characteristic of a plant without modifying the plant's genome using one or more cells comprising one or more phytohormone genes and at least one polynucleotide of interest, which one or more phytohormone genes and the at least one polynucleotide of interest are expressed in the one or more cells.

We describe a plant cell which is modified by the inclusion of a nucleic acid molecule that encodes a regulator of auxin signalling and which is adapted for expression in a gravity sensing cell.

Provided herein are novel methods and compositions for conferring tolerance to auxin herbicides to plants. Also provided are herbicide tolerant plants, seeds, cells, and plant parts containing modified AUX/IAA proteins, as well as methods of producing the same.

The invention provides a methods and materials for producing and selecting plants with at least one dwarfing-associated phenotype. The methods and materials relate to altering the expression, or activity, of an ARF3 polypeptide in the plant, and selecting plants with altered the expression, or activity, of an ARF3 polypeptide. The invention also provides plants produced or selected by the methods. The methods also involve crossing plants of the invention with other plants to produce further plants with at least one dwarfing-associated phenotype.

Provided herein are novel methods and compositions for conferring tolerance to auxin herbicides to plants. Also provided are herbicide tolerant plants, seeds, cells, and plant parts containing modified AUX/IAA proteins, as well as methods of producing the same.