Abstract: Methods and compositions are provided which allow for genetic modification of host cells, including plants and plant cells. The various methods and composition employ a recombinant DNA construct comprising SEQ ID NO: 1 and/or 2 or active variants and fragments thereof. Such polynucleotides find use in facilitating integration of polynucleotides of interest into the DNA of a host cell, including a plant or plant cell. Vectors, host cells, bacteria and plants comprising the recombinant DNA construct or fragments thereof are provided. Further provided are methods of introducing into a host cell or a plant cell a polynucleotide of interest. The method comprises contacting the host cell with a bacterium competent for the transformation of the host cell and comprises a transformation vector comprising a recombinant DNA construct.

Abstract: This disclosure concerns compositions and methods for promoting transcription of a nucleotide sequence in a plant or plant cell, employing a promoter from a Zea mays PR1 gene. Some embodiments relate to a promoter or a 5? UTR from a Zea mays PR1 gene that functions in plants to promote transcription of operably linked nucleotide sequences. Other embodiments relate to a 3? UTR or a terminator from a Zea mays PR1 gene that functions in plants to promote transcription of operably linked nucleotide sequences.

Abstract: The present disclosure relates in part to a method for identifying a soybean germline transformant from a population of soybean transformants by incorporating a selection agent within rooting medium used in tissue culture during the soybean transformation process. The soybean germline transformants are selected from a population of soybean transformants which are comprised of a combination of non-germline and germline soybean transformants. The soybean non-germline transformants are identified and eliminated early in the transformation process. The soybean germline transformants are identified and selected for culturing into mature soybean plants. The method is readily applicable for screening and obtaining a soybean germline transformant at an early stage in the soybean transformation process.

Abstract: A system and method for the automated or semi-automated imagining and orienting of seeds to prepare the seeds for transformation and transgenic engineering.

Abstract: A system and method for the automated or semi-automated preparation of seeds for transformation and transgenic engineering.

Abstract: The invention provides a method for the production of soybean embryogenic callus and somatic embryos. The invention further provides methods of transforming explants that includes generating somatic embryo tissue. The transgenic somatic embryos produced can be used for regenerating stable transgenic plants.

Abstract: A system and method for the automated or semi-automated imagining and orienting of seeds to prepare the seeds for transformation and transgenic engineering.

Abstract: A system and method for the automated or semi-automated preparation of explants for transformation and transgenic engineering.

Abstract: A system and method for the automated or semi-automated preparation of seeds for transformation and transgenic engineering.

Abstract: A system and method for the automated or semi-automated cutting of seeds to prepare the seeds for transformation and transgenic engineering.

Abstract: A system and method for the automated or semi-automated imagining and orienting of seeds to prepare the seeds for transformation and transgenic engineering.

Abstract: The present disclosure relates in part to a method for identifying a soybean germline transformant from a population of soybean transformants by incorporating a selection agent within rooting medium used in tissue culture during the soybean transformation process. The soybean germline transformants are selected from a population of soybean transformants which are comprised of a combination of non-germline and germline soybean transformants. The soybean non-germline transformants are identified and eliminated early in the transformation process. The soybean germline transformants are identified and selected for culturing into mature soybean plants. The method is readily applicable for screening and obtaining a soybean germline transformant at an early stage in the soybean transformation process.

Abstract: A transgenic crop plant transformed by a Serine Hydroxymethyltransferase-Like Stress-Related Polypeptide (SHSRP) coding nucleic acid, wherein expression of the nucleic acid sequence in the crop plant results in the plant's increased root growth, and/or increased yield, and/or increased tolerance to environmental stress as compared to a wild type variety of the plant. Also provided are agricultural products, including seeds, produced by the transgenic crop plants. Also provided are isolated novel SHSRPs, and isolated novel nucleic acids encoding SHSRPs, and vectors and transgenic plant containing the same.

Abstract: A transgenic crop plant transformed by a Serine Hydroxymethyltransferase-Like Stress-Related Polypeptide (SHSRP) coding nucleic acid, wherein expression of the nucleic acid sequence in the crop plant results in the plant's increased root growth, and/or increased yield, and/or increased tolerance to environmental stress as compared to a wild type variety of the plant. Also provided are agricultural products, including seeds, produced by the transgenic crop plants. Also provided are isolated novel SHSRPs, and isolated novel nucleic acids encoding SHSRPs, and vectors and transgenic plant containing the same.

Abstract: A method is disclosed for the Agrobacterium-mediated germline transformation of soybean, comprising infecting split soybean seeds, with a portion of the embryonic axis, with Agrobacterium tumefaciens containing a transgene. The method can further comprise regenerating the explants produced from the transformation of the split soybean seeds comprising a portion of embryonic axis in vitro on selection medium.

Abstract: A method is disclosed for the Agrobacterium-mediated germline transformation of soybean, comprising infecting split soybean seeds, with a portion of the embryonic axis, with Agrobacterium tumefaciens containing a transgene. The method can further comprise regenerating the explants produced from the transformation of the split soybean seeds comprising a portion of embryonic axis in vitro on selection medium.

Abstract: A transgenic crop plant transformed by a 1-AminoCyclopropane-1-Carboxylate Deaminase-like Polypeptide (ACCDP) coding nucleic acid, wherein expression of the nucleic acid sequence in the crop plant results in the plant's increased root growth, and/or increased yield, and/or increased tolerance to environmental stress as compared to a wild type variety of the plant. Also provided are agricultural products, including seeds, produced by the transgenic crop plants. Also provided are isolated novel ACCDPs, and isolated novel nucleic acids encoding ACCDPs, and vectors and transgenic plant containing the same.

Abstract: This invention relates generally to nucleic acid sequences encoding proteins that are associated with abiotic stress responses and abiotic stress tolerance in plants. This invention further relates to transformed plant cells with altered metabolic activity compared to a corresponding non transformed wild type plant cell, wherein the metabolic activity is altered by transformation with a Stress-Related Protein (SRP) coding nucleic acid and results in increased tolerance and/or resistance to an environmental stress as compared to a corresponding non-transformed wild type plant cell.

Abstract: Polynucleotides are disclosed which are capable of enhancing a growth, yield under water-limited conditions, and/or increased tolerance to an environmental stress of a plant transformed to contain such polynucleotides. Also provided are methods of using such polynucleotides and transgenic plants and agricultural products, including seeds, containing such polynucleotides as transgenes.

Abstract: This invention relates generally to nucleic acid sequences encoding proteins that are associated with abiotic stress responses and abiotic stress tolerance in plants. This invention further relates to transformed plant cells with altered metabolic activity compared to a corresponding non transformed wild type plant cell, wherein the metabolic activity is altered by transformation with a Stress-Related Protein (SRP) coding nucleic acid and results in increased tolerance and/or resistance to an environmental stress as compared to a corresponding non-transformed wild type plant cell.