The invention relates to the field of plant improvement, in particular of the improvement of yield for plants, by transforming plants with a transgene containing a promoter driving expression of a AK-HSDH protein.

The invention relates to expression of the PdHB3 gene and uses thereof. The invention provides genetically engineered plants expressing the PdHB3 gene and inhibitors of PdHB3. The invention further provides a method for biofuel production using plant genetically engineered for expressing the PdHB3 gene. The invention further provides a method for increasing glucose and/or xylose release in a plant or plant cell.

The present invention relates to a nucleic acid construct. The nucleic acid construct includes a nucleic acid molecule configured to silence or reduce the expression of StBEL11 and/or StBEL29 and variants thereof, a 5 DNA promoter sequence, and a 3 terminator sequence, where the first nucleic acid molecule, the promoter sequence, and the terminator sequence are operatively coupled to permit transcription of the first nucleic acid molecule. The present invention is also directed to vectors, host cells, transgenic plants, and transgenic plant seeds, as well as non-transgenic mutant plants, and methods for altering tuber yield in a plant.

The present invention provides novel DNA molecules and constructs, including their nucleotide sequences, useful for modulating gene expression in plants and plant cells. The invention also provides transgenic plants, plant cells, plant parts, seeds, and commodity products comprising the DNA molecules operably linked to heterologous transcribable polynucleotides, along with methods of their use.

The present invention relates to a composition for enhancing the sink strength of a sink tissue of a plant. The composition can increase the number of phloem cells and phloem transport velocity by suppressing the expression of an SlJUL protein or a gene encoding the SlJUL protein. Therefore, the present invention can be usefully used to increase the productivity and yield of agricultural crops.

The present invention relates to a nucleic acid construct. The nucleic acid construct includes a nucleic acid molecule configured to silence or reduce the expression of StBEL11 and/or StBEL29 and variants thereof, a 5 DNA promoter sequence, and a 3 terminator sequence, where the first nucleic acid molecule, the promoter sequence, and the terminator sequence are operatively coupled to permit transcription of the first nucleic acid molecule. The present invention is also directed to vectors, host cells, transgenic plants, and transgenic plant seeds, as well as non-transgenic mutant plants, and methods for altering tuber yield in a plant.

This disclosure concerns compositions and methods for promoting transcription of a nucleotide sequence in a plant or plant cell, employing a Zea mays GRMZM2G144030 promoter. Some embodiments relate to a Zea mays GRMZM2G144030 promoter that functions in plants to promote transcription of operably linked nucleotide sequences. Other embodiments relate to a Zea mays GRMZM2G144030 3UTR that functions in plants to terminate transcription of operably linked nucleotide sequences.

The invention relates to expression of the PdHB3 gene and uses thereof. The invention provides genetically engineered plants expressing the PdHB3 gene and inhibitors of PdHB3. The invention further provides a method for biofuel production using plant genetically engineered for expressing the PdHB3 gene. The invention further provides a method for increasing glucose and/or xylose release in a plant or plant cell.

This disclosure concerns compositions and methods for promoting transcription of a nucleotide sequence in a plant or plant cell, employing a Zea mays GRMZM2G144030 promoter. Some embodiments relate to a Zea mays GRMZM2G144030 promoter that functions in plants to promote transcription of operably linked nucleotide sequences. Other embodiments relate to a Zea mays GRMZM2G144030 3UTR that functions in plants to terminate transcription of operably linked nucleotide sequences.

A genetic engineering process of fibrous plant comprising bast fibres. The process comprises the steps of (a) identification of the bast fibre promoter and (b) amplification of the bast fibre promoter. The process is remarkable in that it further comprises the step (c) of preparing a gene cassette by fusing the bast fibre promoter with at least one gene coding for a surface-active protein. Additionally, the fibrous plant obtained by the genetic engineering process. The fibrous plant is remarkable in that it comprises surface-active proteins.