Plant genome design method defines DNA markers M1 to M5, for each target region, DNA marker M2 is at an upstream side of a target region, or upstream thereof, DNA marker M1 is upstream of DNA marker M2, DNA marker M4 is at a downstream side of the target region, or downstream thereof, DNA marker M5 is downstream of DNA marker M4, and DNA marker M3 is in the target region; and designs a genome so that a substitution region, containing the target region, in a chromosome of the original cultivar to be substituted with a chromosome fragment derived from the foreign cultivar has an end on an upstream side between DNA marker M1 and DNA marker M2, and an end on a downstream side of the substitution region between DNA marker M4 and DNA marker M5.

The present invention relates to cultivated cucumber plants comprising a yield QTL on chromosome 3 of their genome, and to methods for generating such plants, and their use.

Methods and materials for modulating cold tolerance levels in plants are disclosed. For example, nucleic acids encoding cold tolerance-modulating polypeptides are disclosed as well as methods for using such nucleic acids to transform plant cells. Also disclosed are plants having increased cold tolerance levels and plant products produced from plants having increased cold tolerance levels.

The present invention relates to rice grain with thickened aleurone. Also provided is a rice plant comprising at least one genetic variation which reduces the activity of at least one ROS1a gene in the plant. Grain of the invention, or aleurone therefrom, has improved nutritional properties, and hence is particularly useful for human and animal feed products.

Provided are methods of increasing nitrogen use efficiency, yield, biomass, growth rate, vigor, oil content, fiber yield, fiber quality and/or abiotic stress tolerance of a plant by expressing within the plant an exogenous polynucleotide comprising a nucleic acid sequence at least 80% identical to SEQ ID NO:1-467, 785-3047; or an exogenous polynucleotide encoding a polypeptide at least 80% identical to SEQ ID NO:468-784, 3048-4333, 4335-4682. Also provided isolated polynucleotide comprising a nucleic acid sequence selected from the group consisting of SEQ ID NOs:1-467, 785-3047, which can be used to increase nitrogen use efficiency, yield, biomass, growth rate, vigor, oil content, fiber yield, fiber quality and/or abiotic stress tolerance of a plant.

Plant genome design method defines DNA markers M1 to M5, for target region, DNA marker M2 is defined at an end on an upstream side of a target region, or upstream thereof, DNA marker M1 is defined upstream of the DNA marker M2, DNA marker M4 is defined at an end on a downstream side of the target region, or downstream thereof, DNA marker M5 is defined downstream of the DNA marker M4, and DNA marker M3 is defined in the target region; and designs a genome so that a substitution region, containing the target region, in a chromosome of the original cultivar to be substituted with a chromosome fragment derived from the foreign cultivar has an end on an upstream side between DNA marker M1 and DNA marker M2, and an end on a downstream side of the substitution region between DNA marker M4 and DNA marker M5.

The present invention relates to rice grain with thickened aleurone. Also provided is a rice plant comprising at least one genetic variation which reduces the activity of at least one ROS1a gene in the plant. Grain of the invention, or aleurone therefrom, has improved nutritional properties, and hence is particularly useful for human and animal feed products.

The present invention relates to wheat plants having an increased yield. More specifically, the invention relates to wheat plants in which expression of ENHANCER OF DA1 (EOD1) is functionally reduced. Provided are wheat plants comprising mutant EOD1 alleles as well as methods and means to produced wheat plants with an increased yield.

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 present application discloses a method for improving density-tolerant yield of maize and use thereof, belongs to the field of plant biotechnology breeding. Compared with the Ig1 mutant strain, the LG1/Ig1 heterozygous genotype strain has excellent agronomic characters such as a widened leaf, a larger spike, a reduced empty stalk ratio and/or an increased yield by close planting; compared with the LG1 wild-type strain, the LG1/Ig1 heterozygous genotype material reduces a leaf angle and tassel branch number of maize, and has the effect of increasing the yield by close planting. The method has a wide application prospect in the field of maize high-yield breeding.