Provided herein are methods for increasing plant cell transformation efficiency. These methods include exposing the plant cells to a liquid medium containing a surfactant. Following exposure to the surfactant-containing medium, the cells can become more amenable to transformation and may be genetically transformed using methods known in the art. Exposure of the cells to the surfactant-containing medium prior to transformation can increase plant transformation efficiency when compared to transformation efficiency of cells not exposed to the surfactant-containing medium.

Compositions and methods are provided for introducing transgenic target sites for Site Specific Integration (SSI) and/or polynucleotides of interest into at least one double-strand break target site of a double-strand-break inducing agent in a genomic window of a plant genome. Also provided are methods and compositions for producing a complex trait locus in a genomic window of a plant comprising at least one transgenic target site for site specific integration integrated in at least double-strand-break target site. The double-strand-break target site can be, but is not limited to, a target site for a zinc finger endonuclease, an engineered endonuclease, a meganuclease, a TALENs and/or a Cas endonuclease. The genomic window of said plant can comprise at least one genomic locus of interest such as a trait cassette, a transgene, a mutated gene, a native gene, an edited gene or a site-specific integration (SSI) target site.

The present invention relates to the field of plant breeding and in particular to the regeneration of plants from cells and other tissues. More particularly, the invention provides methods and means for improving callus formation and regeneration of plants from callus tissue using a histone deacetylase inhibitor.

Provided herein are CRISPR/Cas methods and compositions for targeting RNA molecules, which can be used to detect, edit, or modify a target RNA.

Compositions and methods are provided for introducing transgenic target sites for Site Specific Integration (SSI) and/or polynucleotides of interest into at least one double-strand break target site of a double-strand-break inducing agent in a genomic window of a plant genome. Also provided are methods and compositions for producing a complex trait locus in a genomic window of a plant comprising at least one transgenic target site for site specific integration integrated in at least double-strand-break target site. The double-strand-break target site can be, but is not limited to, a target site for a zinc finger endonuclease, an engineered endonuclease, a meganuclease, a TALENs and/or a Cas endonuclease. The genomic window of said plant can comprise at least one genomic locus of interest such as a trait cassette, a transgene, a mutated gene, a native gene, an edited gene or a site-specific integration (SSI) target site.

Provided herein are methods for the production of high density cultures of algae as well as nutritional supplements from such cultures and the use of such cultures to produce therapeutic proteins.

Methods and systems for delivering biological materials such as nucleic acids and/or proteins to the interior of a plant cell are provided. Such methods and systems include those where biological material is non-covalently complexed with a magnetic particle and accelerated multiple times toward a plant cell.

The present disclosure provides methods for transfecting plants and for expressing RNA or polypeptide molecules in plants. In particular, plants having reduced POLQ expression and/or activity are transfected in order to reduce random integration events. The disclosure further provides transfected plants and plant progeny produced by the methods disclosed herein.

Compositions containing chimeric RNA molecules which comprise meristem targeting sequences that are fused to RNA cargo sequences that include gene editing molecules are provided. Methods of using the compositions to efficiently edit plant genomes without intervening tissue culture steps are also provided. The solutions described here relate to engineered RNA molecules useful in producing plants with altered genomes. As such, it relates to substantially purified compositions, vectors, systems, as well as genomes of plants.

Compositions and methods useful for plant transformation without employing selection and without requiring tissue culture through a callus stage are provided. Transformed monocot plants can be obtained with the compositions and methods.