The present invention relates to transgenic plants with altered photorespiration and improved CO.sub.2 fixation as well as a method of producing said transgenic plants. Particularly, the transgenic plants show an improved growth rate, productivity and energy conversion efficiency. This method can be successfully applied to many agricultural crop plants with nutritional and medicinal uses.

A transgenic rice plant containing in its genome a recombinant DNA construct that includes a first nucleic acid having a sequence of a first Golden 2-like transcription factor (GLK) gene operably linked to its natural promoter and 5′ untranslated region (5′UTR), and a second nucleic acid having a sequence of a second GLK gene operably linked to its natural promoter and 5′UTR, the second GLK gene being distinct from the first GLK gene. The first GLK gene and the second GLK gene are both from a C4 plant and the transgenic rice plant exhibits a 65-106% increase in shoot biomass and a 50-95% increase in grain yield, as compared to an untransformed wild-type rice plant. Also provided is a method for producing the transgenic rice plant and a recombinant DNA construct that can be used in the method.

Embodiments of the present invention provide for a transgenic plan, methods of making and DNA constructs for use in the transgenic plant which transgenic plant is capable of modulating its photosynthetic antenna complex composition in response to increases or decreases in light intensity by modulation of the ratio of chlorophyll a to chlorophyll b such that there is an increase in the Chl a/b ratio at high light intensity and a decrease in the Chl a/b ratio at low light intensity versus wild-type plants grown in the same conditions.

The compositions and methods disclosed relate to DNA compositions, plant cells, seeds, plant parts that relate to maize plants with increased grain yield trait. Also provided are assays for detecting the presence of the maize DP-202216-6 event based on the DNA sequence of the recombinant construct inserted into the maize genome and the DNA sequences flanking the insertion site. Kits and conditions useful in conducting the assays are provided.

The present disclosure provides a transgenic plant comprising one or more nucleotide sequences encoding polypeptides selected from photosystem II subunit S (PsbS), zeaxanthin epoxidase (ZEP), and violaxanthin de-epoxidase (VDE), operably linked to at least one expression control sequence. Expression vectors for making transgenic plants, and methods for increasing biomass production and/or carbon fixation and/or growth in a plant comprising increasing expression of at least one of PsbS, ZEP and VDE polypeptides are also provided.

Ascorbate protects tissues against damage caused by reactive oxygen species (ROS) produced through normal metabolism or generated from stress. The inositol route to AsA involves four enzymes: myo-inositol oxygenase, glucuronate reductase, gluconolactonase (GNL), and L-gulono-1,4-lactone oxidase (GulLO). Eighteen putative GNLs were identified in Arabidopsis, one of which, AtGNL, is interesting because it possesses a chloroplastic signal peptide. Knockouts on this gene had lower foliar AsA and stunted growth compared to controls. The functional gene restored the phenotype of the knockouts, and those plants had higher AsA content, enhanced photosynthetic capacity, and higher seed yield.

This disclosure provides tobacco plants that exhibit altered photosynthesis as well as methods of making and using such plants.

Provided herein are green alga Cia8 polypeptides and the polynucleotides that encode them. Also provided herein are transformed cells and transgenic plants that include one or more of the polynucleotides and/or polypeptides provided herein.

Provided are methods of increasing nitrogen use efficiency, fertilizer use efficiency, yield, growth rate, vigor, biomass, oil content and/or abiotic stress tolerance of a plant by expressing within the plant an exogenous polynucleotide comprising a nucleic acid sequence encoding a polypeptide at least 80% identical to SEQ ID NO: 2560, 2557, 184, 238, 188, 154-156, 158-161, 163-183, 185-187, 189-197, 200-237, 239-264, 266-269, 1351, 1365-1425, 1429-1457, 1459, 1461-1730, 1735, 1739-2397, 2533-2541, 2544-2556, 2558, 2559, 2561-2562 or 2563. Also provided are isolated polynucleotides and polypeptides which can be used to increase nitrogen use efficiency, fertilizer use efficiency, yield, growth rate, vigor, biomass, oil content and/or abiotic stress tolerance of a plant of a plant.

Plants are provided with increased ribulose-1,5-bisphosphate (RuBP) regeneration capacity during the Calvin cycle through increased expression of sedoheptulose 1,7 bisphosphatase, in combination with reduced photo-respiratory losses through expression of glycolate catabolizing enzymes. Such plants have a greater growth rate and/or improved biomass and/or increased carbon fixation compared to untreated plants, or plants comprising only one of the features above.