The disclosure generally relates to methods and materials for modulating cell productivity. In particular, the present disclosure provides polynucleotides encoding transcription factor proteins that when overexpressed in microorganisms result in increased in productivity, such as increased biomass productivity. Also disclosed are methods of using the genetically engineered host strains to modulate or increase productivity of host cells such as, for example, algal or heterokont cells. Genetically engineered host cells, such as algal and heterokont cells having increased biomass productivity and bioproducts derived from such host cells are also disclosed.

Methods and compositions that affect yield and other agronomic characteristics in plants are disclosed. Methods of transgenic modulation and marker-assisted breeding by expressing NRT1.1B are also disclosed, thereby improving the nitrogen utilization and grain yield in rice and other crops.

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.

Isolated polynucleotides and polypeptides encoded thereby are described, together with the use of those products for making transgenic plants with increased tolerance to abiotic stress (e.g., high or low temperature, drought, flood).

The present disclosure identifies new genes which have the potential to increase broad acre yield in crops. This disclosure is based upon our fundamental knowledge of light signal transduction and our understanding of tile roles these genes play in regulating plant growth and development in response to light. Transgenic plants with gain- or loss-of-function of one of these genes, or in combination, are expected to show significant improvements in broad acre yield and stress tolerance.

Provided are heterologous nucleic acid constructs, vectors and methods for elevating cyclic electron transfer activity, improving carbon concentration, and enhancing carbon fixation in C3 and C4 plants, and algae, and producing biomass or other products from C3 or C4 plants, and algae, selected from among, for example, starches, oils, fatty acids, lipids, cellulose or other carbohydrates, alcohols, sugars, nutraceuticals, pharmaceuticals, fragrance and flavoring compounds, and organic acids, as well as transgenic plants produced thereby. These methods and transgenic plants and algae encompass the expression, or overexpression, of various combinations of genes that improve carbon concentrating systems in plants and algae, such as bicarbonate transport proteins, carbonic anhydrase, light driven proton pump, cyclic electron flow regulators, etc.

The application describes producing polynucleotide variants of the AtHB 17 clade members and introducing the mutant variants into plants to improve plant traits. The mutant polynucleotides encode polypeptides that comprise mutations in the EAR motifs.

A method for promoting mycorrhizal symbiosis between a plant and a fungus includes using micropeptides (peptides encoded by microRNAs or “miPEPs”).

The present invention relates to the field of plant breeding and biotechnology and in particular to the generation of plants from cells and other tissues. More particularly, the invention provides methods and means for improving plant regeneration, especially from transformed or genetically modified plant cells using GRF1 booster gene.

A modified plant is provided. The modified plant includes a polynucleotide including a promoter operably linked to a coding sequence. The coding sequence encodes a transcription factor that has at least 30% sequence identity to one or more of SEQ ID NOs: 27, 204, 10, 19, 1-9, 11-18, 20-26, 28-203, 205, 237, or 242-310. The promoter is non-cognate with respect to the coding sequence. Also provided is a method for producing a modified plant having increased seed yield and/or oil content in comparison to a reference plant by transformation. Also provided is a method for producing a modified plant having increased seed yield and/or oil content in comparison to a reference plant by editing.