Abstract: Disclosed are modified plants and methods for producing modified plants having a modified 5?-untranslated region of small auxin upregulated protein flooding tolerance (SAUR_FT) gene. Modified plants disclosed herein have at least one of an increased root system architecture, an increased waterlogging tolerance, an increased drought tolerance, and combinations thereof.

Abstract: Disclosed are modified plants and methods for producing modified plants having a modified 5?-untranslated region of small auxin upregulated protein flooding tolerance (SAUR_FT) gene. Modified plants disclosed herein have at least one of an increased root system architecture, an increased waterlogging tolerance, an increased drought tolerance, and combinations thereof.

Abstract: Disclosed are modified plants and methods for producing modified plants having a modified 5?-untranslated region of small auxin upregulated protein flooding tolerance (SAUR_FT) gene. Modified plants disclosed herein have at least one of an increased root system architecture, an increased waterlogging tolerance, an increased drought tolerance, and combinations thereof.

Abstract: Microarrays are employed to analyze soybean transcriptome under water stress conditions in different regions of the root at vegetative stage. Drought responsive genes and transcription factors are identified which may be used for enhancing drought tolerance in soybean or other plants through genetic/metabolic engineering. This disclosure pertains to nucleic acid molecules isolated from soybean and maize that encode polypeptides that may be important for drought tolerance. The disclosure also relates to methods of using these genes from soybean in transgenic plants to confer the desired agronomic traits, and to use such genes or regulatory elements thereof to assist germplasm enhancement by molecular breeding or to identify other factors or chemicals that may enhance a plant's capability to grow under drought conditions.

Abstract: Several QTLs that are genetically linked to resistance to soybean cyst nematode (SCN) are disclosed. These QTLs have been mapped to genomic regions on Chrs. 4, 8, 10, 11, 18, and 20 of soybean, G. max. Candidate genes underlying these QTLs as defined by the flanking markers, as well as genetic markers associated with these QTLs are also disclosed. These markers can be utilized for introgressing SCN resistance into non-resistant soybean germplasm. The unique resistance genes can be introduced into a non-resistant plant by marker-assisted selection (MAS) or by transgenic methods.

Abstract: Cytochrome b5 (Cb5) is a haem-binding protein located in the endoplasmic reticulum (ER) and the outer mitochondrial membranes of higher eukaryotes. In higher plants, animals, and fungi, the ER resident Cb5 has been shown to play a role in desaturation of acyl CoA fatty acids. Higher plants Cb5 isoforms from plants such as soybean or Arabidopsis are capable of modulating omega-3 desaturation. Co-expression of certain Cb5 isoforms with FAD3 in a host plant results in increased production of seed oil content as well as altered ratio between different fatty acids. It is also disclosed here that overexpression of Yarrowia ACL enzymes in the plastids of a host plant helps boost the synthesis of acetyl CoA, which in turn, may lead to increased synthesis of fatty acids and enhanced oil accumulation in the seeds.

Abstract: Several QTLs that are genetically linked to resistance to soybean cyst nematode (SCN) are disclosed. These QTLs have been mapped to genomic regions on Chrs. 4, 8, 10, 11, 18, and 20 of soybean, G. max. Candidate genes underlying these QTLs as defined by the flanking markers, as well as genetic markers associated with these QTLs are also disclosed. These markers can be utilized for introgressing SCN resistance into non-resistant soybean germplasm. The unique resistance genes can be introduced into a non-resistant plant by marker-assisted selection (MAS) or by transgenic methods.

Abstract: Cytochrome b5 (Cb5) is a haem-binding protein located in the endoplasmic reticulum (ER) and the outer mitochondrial membranes of higher eukaryotes. In higher plants, animals, and fungi, the ER resident Cb5 has been shown to play a role in desaturation of acyl CoA fatty acids. Higher plants Cb5 isoforms from plants such as soybean or Arabidopsis are capable of modulating omega-3 desaturation. Co-expression of certain Cb5 isoforms with FAD3 in a host plant results in increased production of seed oil content as well as altered ratio between different fatty acids. It is also disclosed here that overexpression of Yarrowia ACL enzymes in the plastids of a host plant helps boost the synthesis of acetyl CoA, which in turn, may lead to increased synthesis of fatty acids and enhanced oil accumulation in the seeds.

Abstract: Gene expression is controlled at the transcriptional level by very diverse group of proteins called transcription factors (TFs). 5671 soybean (Glycine max) genes have been identified and disclosed as putative transcription factors through mining of soybean genome sequences. Distinct classes of the TFs are also disclosed which may be expressed and or function in a manner that is tissue specific, developmental stage specific, biotic and/or abiotic stress specific. Manipulation and/or genetic engineering of specific transcription factors may improve the agronomic performance or nutritional quality of plants. Transgenic plants expressing a select number of these TFs are disclosed. These transgenic plants show some promising traits, such as improving the capability of the plant to grow and reproduce under drought conditions.

Abstract: Cytochrome b5 (Cb5) is a haem-binding protein located in the endoplasmic reticulum (ER) and the outer mitochondrial membranes of higher eukaryotes. In higher plants, animals, and fungi, the ER resident Cb5 has been shown to play a role in desaturation of acyl CoA fatty acids. Higher plants Cb5 isoforms from plants such as soybean or Arabidopsis are capable of modulating omega-3 desaturation. Co-expression of certain Cb5 isoforms with FAD3 in a host plant results in increased production of seed oil content as well as altered ratio between different fatty acids. It is also disclosed here that overexpression of Yarrowia ACL enzymes in the plastids of a host plant helps boost the synthesis of acetyl CoA, which in turn, may lead to increased synthesis of fatty acids and enhanced oil accumulation in the seeds.

Abstract: Microarrays are employed to analyze soybean transcriptome under water stress conditions in different regions of the root at vegetative stage. Drought responsive genes and transcription factors are identified which may be used for enhancing drought tolerance in soybean or other plants through genetic/metabolic engineering. This disclosure pertains to nucleic acid molecules isolated from soybean and maize that encode polypeptides that may be important for drought tolerance. The disclosure also relates to methods of using these genes from soybean in transgenic plants to confer the desired agronomic traits, and to use such genes or regulatory elements thereof to assist germplasm enhancement by molecular breeding or to identify other factors or chemicals that may enhance a plant's capability to grow under drought conditions.

Abstract: Several QTLs that are genetically linked to resistance to soybean cyst nematode (SCN) are disclosed. These QTLs have been mapped to genomic regions on Chrs. 4, 8, 10, 11, 18, and 20 of soybean, G. max. Candidate genes underlying these QTLs as defined by the flanking markers, as well as genetic markers associated with these QTLs are also disclosed. These markers can be utilized for introgressing SCN resistance into non-resistant soybean germplasm. The unique resistance genes can be introduced into a non-resistant plant by marker-assisted selection (MAS) or by transgenic methods.

Abstract: The present subject matter provides a method for enhancing the abiotic stress tolerance of a plant. Polynucleotides isolated from rice (Oryza sativa) and encoding polypeptides for abiotic stress tolerance are also described.

Abstract: The present subject matter provides a method for enhancing the abiotic stress tolerance of a plant. Polynucleotides isolated from rice (Oryza sativa) and encoding polypeptides for abiotic stress tolerance are also described.

Abstract: Microarrays are employed to analyze soybean transcriptions under water stress conditions in both root and leaf tissues at vegetative stage. Novel drought responsive genes may be thus identified and may be used for enhancing drought tolerance in soybean or other plants through genetic/metabolic engineering. This disclosure pertains to nucleic acid molecules isolated from Soybean that encode polypeptides that may be important for drought tolerance. The disclosure also relates to methods of using these genes from soybean in transgenic plants to confer the desired agronomic traits, and to use such genes or regulatory elements thereof to assist germplasm enhancement by molecular breeding or to identify other factors or chemicals that may enhance a plant's capability to grow under drought conditions.

Abstract: Agrobacterium-mediated plant transformation with a transgene of interest is accomplished with high frequency of transformation by using a specially constructed vector. The vector combines the transgene of interest with an autoregulating promoter, such as the PSAG12 promoter, that controls expression of an IPT coding region. The IPT coding region may be replaced by another ORF coding for the expression of a polypeptide affecting at least one plant cell cycle pathway selected from the group consisting of cytokinin, auxin, and sugar pathways.