The present invention relates to OsNF-YA5 gene from Oryza sativa for increasing nitrogen availability of plant and uses thereof. Since the OsNF-YA5 gene of the present invention can increase or improve nitrogen availability of a plant, it can be advantageously used for developing a plant which enables lesser consumption of nitrogen fertilizer while maintaining the same plant yield, i.e., an environment friendly plant with lower production cost.

The invention relates to plant transcription factor polypeptides, polynucleotides that encode them, homologs from a variety of plant species, and methods of using the polynucleotides and polypeptides to produce transgenic plants having advantageous properties compared to a reference plant. Sequence information related to these polynucleotides and polypeptides can also be used in bioinformatic search methods and is also disclosed.

The disclosure relates to a series of independent human-induced non-transgenic mutations found at one or more of the Lip1 genes of a plant; plants having these mutations in one or more of their Lip1 genes; and a method of creating and finding similar and/or additional mutations of Lip1 by screening pooled and/or individual plants. The plants disclosed herein exhibit decreased lipase activity without having the inclusion of foreign nucleic acids in their genomes. Additionally, products produced from the plants disclosed herein exhibit increased hydrolytic and oxidative stability and increased shelf life without having the inclusion of foreign nucleic acids in their genomes.

The present invention relates to ethylene insensitive EIN/EIL polypeptides, and nucleotide sequences encoding the EIN/EIL polypeptides. Further, the invention relates to plants having reduced ethylene insensitivity and methods for preparing these. Lastly, the invention relates to products and crops from plants as well as processed products derived from the products and crops.

The present disclosure relates to the field of genetic breeding, in particular, to methods and formulations for inducing abortion or deformation of plant seeds by a VvDUF642 gene. The result of the present disclosure shows that the VvDUF642 gene is continuously expressed at a high level in seedless varieties, but there is no significant change in expression in nucleated varieties. After the VvDUF642 gene is transformed into an Arabidopsis, Arabidopsis seeds are deformed. After the VvDUF642 gene is transformed into a tomato, it causes abortion of tomato seeds. The gene or protein can be used for the construction or screening of seed abortion grape varieties.

Provided are sesame plants having a mutation conferring closed capsules at maturity and means and methods for producing same. The plants of the present subject matter produce high yield of sesame seeds, the seeds having improved content of at least one of zinc, iron and calcium.

This invention relates to crop plants of which the fruit dehiscence properties are modulated. More specifically the invention relates to improved methods and means for reducing seed shattering, or delaying seed shattering until after harvest, in plants, while maintaining at the same time an agronomically relevant threshability of the pods.

The present disclosure provides shatterproof (SHP) genes and plants and/or plant cells bearing one or more mutations in a shatterproof gene; as well as methods of making and using such plants. In some embodiments the plant or plant cell is resistant to preharvest dehiscence.

The present application relates to avocado plant cells and avocado plant varieties that have combinations of polyphenol (PPO) gene loss of function mutations resulting in avocado plant cells and avocado plants with desirable traits, such as reduced browning and longer shelf life as compared to unmodified varieties. The plants and plant cells containing PPO loss of function mutations do not have any exogenous sequences in the genome. The present application also provides methods for making such plants and plant cells.

The disclosure relates to gene edited wheat plants, seeds, and compositions, as well as improvements to wheat plant breeding and methods for creating modifications in wheat plant genomes.