Abstract: Isolated polynucleotides and polypeptides, and recombinant DNA constructs are useful for conferring improved nitrogen stress tolerance or NUE and yield. Compositions (such as plants or seeds) comprise these recombinant DNA constructs; and methods utilize these recombinant DNA constructs. The recombinant DNA constructs comprise a polynucleotide operably linked to a promoter that is functional in a plant, wherein said polynucleotides encode nitrogen stress tolerance polypeptides.

Abstract: Isolated polynucleotides and polypeptides, and recombinant DNA constructs are useful for conferring improved drought tolerance and yield. Compositions (such as plants or seeds) comprise these recombinant DNA constructs; and methods utilize these recombinant DNA constructs. The recombinant DNA constructs comprise a polynucleotide operably linked to a promoter that is functional in a plant, wherein said polynucleotides encode drought tolerance polypeptides.

Abstract: The disclosure provides recombinant LAC polynucleotides encoding a laccase (LAC) polypeptide capable of polymerizing caffeyl alcohol, vectors and cells including the recombinant LAC polynucleotide. The disclosure also provides transgenic plants including cells having the recombinant LAC polynucleotide of the present disclosure and methods of increasing production of C-lignin in a plant.

Abstract: This invention describes a new method to increase grain yields in any crop plant by modifying pollination to effect an increase in grain yield, a change in grain content or characteristics, a decrease in contamination, or a combination of these attributes. The process involves the intentional delivery of pollen of the male plant at will to designated male-sterile female plants as available either in a preserved pollen bank, or real-time collection from male plants as they become available, in a growth chamber for example. Desired pollen is delivered to fertile females. The delivered pollenM is in such amounts and fortuitously timed that it preferentially pollinates the females and pollination from neighboring male-fertile plants. The intentional delivery of genetically different pollen will result in increased heterosis and accompanying grain yield increases resulting from increased grain size and the potential to influence grain content and constituents.

Abstract: The invention discloses a rice temperature sensitive male sterile gene mutant tms18 and its uses. During the study of TMS18 gene, the inventors found that the changing of fertility was related to the structural integrity of the second layer of pollen outer wall. The inventors accidentally found the thermo sensitive male sterile mutant tms18. The fertility of the mutant was affected by different temperatures and can be restored under low temperature treatment. More importantly, the fertility sensitive period of the mutant was different from that of other thermo sensitive male sterile genes. This unique feature of the gene can provide a new theoretical basis and apply value for two-line hybrid rice breeding.

Abstract: The invention discloses a method for improving rice yield and a protein used thereof. The invention provides a method for cultivating the target rice, comprising the following steps of inhibiting the activity of RAY1 protein in original rice to obtain target rice; compared with the original rice, the target rice shows higher yield and/or larger grain size and/or stronger resistance to rice blast and/or higher plant height and/or longer stem internode length; the RAY1 protein is a protein composed of an amino acid sequence shown as SEQ ID No. 1 in a sequence list. The invention uses CRISPR/Cas9 technology to realize site-directed editing rice RAY1 gene, through knocking out rice RAY1 gene by frameshift mutation, the protein RAY1 is inactivated, and a new generation of rice germplasm with significantly improved yield is obtained.

Abstract: 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.