Abstract: The invention relates to a method for production of transgenic plants and/or plant cells with increased pathogenic resistance, whereby the transgenic plants or plant cells have an altered content or an altered activity of at least one actin-depolymerising factor (ADF) with relation to the wild type. The invention also relates to the use of nucleic acids, coding for at least one ADF, for the production of transgenic plants or plant cells with increased pathogenic resistance and, furthermore, nucleic acid sequences coding for an ADF.

Abstract: Nucleotide sequences of a Msca1 gene, critical to male fertility in plants are described, with DNA molecule and amino acid sequences set forth. Promoter sequences and their essential regions are also identified. The nucleotide sequences are useful in impacting male fertility in plants.

Abstract: Methods for transforming forage legumes or woody plants with a DNA construct comprising at least one open reading frame encoding for a caffeoyl CoA 3-O-methyltransferase enzyme and a caffeic acid 3-O-methyltransferase enzyme or fragment thereof in either a sense or antisense orientation under a lignification-associated tissue specific promoter have been found, resulting in the down-regulation of the corresponding homologous gene either through antisense inhibition or sense suppression, as well as reduced lignin content and modified lignin composition in the transgenic plants. The expression of the caffeoyl CoA 3-O-methyltransferase transgene produces an increased syringyl lignin to guaiacyl lignin ratio in the transformed plant, and greatly improved forage digestibility.

Abstract: According to the present invention, a plant having an early flowering property is provided. Specifically, the present invention provides a transformed plant having a gene that suppresses flower-bud formation or the antisense DNA of this gene.

Abstract: Methods for altering the N-glycosylation pattern of proteins in higher plants are provided. In some embodiments, the methods comprise introducing into a duckweed plant a recombinant RNAi construct that provides for the inhibition of expression of ?1,3-fucosyltransferase (FucT) and ?1,2-xylosyltransferase (XylT). Use of these RNAi constructs to inhibit or suppress expression of both of these enzymes, and isoforms thereof, advantageously provides for the production of endogenous and heterologous proteins having a “humanized” N-glycosylation pattern without impacting plant growth and development. Stably transformed higher plants, including duckweed plants, having this protein N-glycosylation pattern are provided. Glycoprotein compositions, including monoclonal antibody compositions, having substantially homogeneous glycosylation profiles, and which are substantially homogeneous for the G0 glycoform, are also provided.

Abstract: An allergen-free transgenic peanut seed is produced by recombinant methods. Peanut plants are transformed with multiple copies of each of the allergen genes, or fragments thereof, to suppress gene expression and allergen protein production. Alternatively, peanut plants are transformed with peanut allergen antisense genes introduced into the peanut genome as antisense fragments, sense fragments, or combinations of both antisense and sense fragments. Peanut transgenes are under the control of the 35S promoter, or the promoter of the Ara h2 gene to produce antisense RNAs, sense RNAs, and double-stranded RNAs for suppressing allergen protein production in peanut plants. A full length genomic clone for allergen Ara h2 is isolated and sequenced. The ORF is 622 nucleotides long. The predicted encoded protein is 207 amino acids long and includes a putative transit peptide of 21 residues. One polyadenilation signal is identified at position 951. Six additional stop codons are observed.

Abstract: Anti-sense-oriented RNA gene suppression agents in the form of a loop of anti-sense-oriented RNA is produced in cells of transgenic organisms, e.g. plants, by transcription from a recombinant DNA construct which comprises in 5? to 3? order a promoter element operably linked to an anti-sense-oriented DNA element and a complementary DNA element.

Abstract: Transgenic plant cells and plants are described which synthesise a starch which is modified in comparison with corresponding wild type plant cells and plants. The plant cells and plants described show a reduced activity of R1, BEI and BEII proteins. Furthermore, modified starches as well as methods for their production are described.

Abstract: The invention relates to a method to modulate plant growth or development by modifying genes in plants. The invention among others relates to modifying RKS genes or gene products as found in Arabidopsis thaliana or other plants. The invention provides a method for modulating a developmental pathway of a plant or plant cell comprising modifying a gene or modifying expression of said gene, wherein said gene is encoding a protein belonging to a signaling complex comprising RKS protein, ELS protein, NDR/NHL protein, SBP/SPL protein and RKS/ELS ligand protein.

Abstract: The enzymes of the ACC synthase family are used in producing ethylene. Nucleotide and polypeptide sequences of ACC synthases are provided along with knockout plant cells having inhibition in expression and/or activity in an ACC synthase and knockout plants displaying a staygreen phenotype, a male sterility phenotype, or an inhibition in ethylene production. Methods for modulating staygreen potential in plants, methods for modulating sterility in plants, and methods for inhibiting ethylene production in plants are also provided.

Abstract: Compositions and methods for modulating MIOX activity are provided. Such compositions include nucleotide sequences for novel MIOX sequences obtained from maize, amino acid sequences for the proteins encoded by the nucleotide sequences of the invention, and variants and fragments thereof. Methods of the invention involve introducing into a plant a nucleotide construct comprising a MIOX nucleotide sequence operably linked to a promoter that drives expression in a plant. Expression of the novel nucleotide sequences disclosed herein confers advantageous agronomic properties on a plant. Transformed plants, plant cells, and seeds are additionally provided.

Abstract: The invention provides methods of identifying herbicidal auxins. The invention further provides auxin-herbicide-resistant plants and genes conferring auxin-herbicide resistance. This invention also provides a method of identifying other proteins that bind picolinate auxins from additional plant species. The invention further provides a method to identify the molecular binding site for picolinate auxins. The invention also includes the use of the picolinate herbicidal auxin target site proteins, and methods of discovering new compounds with herbicidal or plant growth regulatory activity. The invention also includes methods for producing plants that are resistant to picolinate herbicidal auxins. Specific examples of novel proteins associated with herbicide binding include AFB5, AFB4, and SGT1b.

Abstract: The present invention provides wheat NAC nucleic acids and proteins that modulate grain protein content and senescence in plants. Overexpression of a NAC coding sequence can accelerate senescence and increase grain protein content and inhibition of expression can delay senescence. The invention also provides methods of using the nucleic acids to produce transgenic plants with altered grain protein content or senescence.

Abstract: The present invention provides molecular constructs and methods for use thereof, including constructs including heterologous miRNA recognition sites, constructs for gene suppression including a gene suppression element embedded within an intron flanked on one or on both sides by non-protein-coding sequence, constructs containing engineered miRNA or miRNA precursors, and constructs for suppression of production of mature microRNA in a cell. Also provided are transgenic plant cells, plants, and seeds containing such constructs, and methods for their use. The invention further provides transgenic plant cells, plants, and seeds containing recombinant DNA for the ligand-controlled expression of a target sequence, which may be endogenous or exogenous. Also disclosed are novel miRNAs and miRNA precursors from crop plants including maize and soy.

Abstract: The present invention relates to p450 enzymes and nucleic acid sequences encoding p450 enzymes in Nicotiana, and methods of using those enzymes and nucleic acid sequences to alter plant phenotypes.

Abstract: Wheat having a reduced level of SBEIIa activity, that may have a relative high amylose content. Wheat having a mutant SBEIIa gene in the A genome. The wheat might additionally have reduced levels of SBEIIb activity. The wheat grain of this invention can be of a non-shrunken phenotype despite a lesion in the amylopectin synthesis pathway, and may also have a high relative amylose content.

Abstract: The present invention provides isolated nucleic acid molecules encoding plant cyclin dependent kinase inhibitors (ICKs). The nucleic acid molecules may be used to downregulate expression of a plant ICK, thereby providing useful plant phenotypes.

Abstract: DNA encoding a plant quinolate phosphoribosyl transferase (QPRTase) enzyme, and constructs comprising such DNA are provided. Methods of altering quinolate phosphoribosyl transferase expression are provided.

Abstract: The present invention relates to processes for preparing transformed plant cells or organisms by transforming a population of plant cells which comprises at least one marker protein having a direct or indirect toxic effect for said population, with at least one nucleic acid sequence to be inserted in combination with at least one compound, preferably a DNA construct, capable of reducing the expression, amount, activity and/or function of the marker protein, with the transformed plant cells having a growth advantage over nontransformed cells, due to the action of said compound.

Abstract: A method for controlling endosperm size and development in plants. The method employs nucleic acid constructs encoding proteins involved in genomic imprinting, in the production of transgenic plants. The nucleic acid constructs can be used in the production of transgenic plants to affect interspecific hybridisation.

Abstract: The invention provides method and compositions for the modulation of flavanone and/or isoflavone production in plants. The methods of the invention allow creation of plants having novel phenotypes. Increased expression of isoflavones in particular in plants may be used to increase the nutritional value of food plants for both human and animal consumption. The invention overcomes limitations of the prior art which prevented accumulation of high levels of isoflavones in plants.

Abstract: The invention provides method and compositions to minimize the chlorophyll antenna size of photosynthesis by decreasing TLA1 gene expression, thereby improving solar conversion efficiencies and photosynthetic productivity in plants, e.g., green microalgae, under bright sunlight conditions.

Abstract: The present invention is directed to compositions and methods for altering the levels of seed proteins in cereal grain. The invention is directed to the alteration of seed protein levels in plant grain, resulting in grain with increased digestibility/nutrient availability, improved amino acid composition/nutritional value, increased response to feed processing, improved silage quality, and increased efficiency of wet milling.

Abstract: The present invention relates to a system for controlling the development of fungi during a phytopathogenic attack which enables the plant to express a construct for inhibiting the expression of a gene essential to the development or to the pathogenicity of the fungus. The technology used is based on the mechanism of RNA interference. The present invention provides methods for producing plants resistant to a phytopathogenic fungus, plant cells and plants resistant to a phytopathogenic fungus, and methods of identifying a gene essential to the development or to the pathogenicity of a phytopathogenic fungus.

Abstract: A soybean cultivar designated 7041461 is disclosed. The invention relates to the seeds of soybean cultivar 7041461, to the plants of soybean 7041461, to plant parts of soybean cultivar 7041461 and to methods for producing a soybean plant produced by crossing soybean cultivar 7041461 with itself or with another soybean variety. The invention also relates to methods for producing a soybean plant containing in its genetic material one or more transgenes and to the transgenic soybean plants and plant parts produced by those methods. This invention also relates to soybean cultivars or breeding cultivars and plant parts derived from soybean variety 7041461, to methods for producing other soybean cultivars, lines or plant parts derived from soybean cultivar 7041461 and to the soybean plants, varieties, and their parts derived from use of those methods. The invention further relates to hybrid soybean seeds, plants and plant parts produced by crossing the cultivar 7041461 with another soybean cultivar.

Abstract: Isolated polynucleotides encoding polypeptides active in lignin, fructan and tannin biosynthetic pathways are provided, together with expression vectors and host cells comprising such isolated polynucleotides. Methods for the use of such polynucleotides and polypeptides are also provided.

Abstract: Methods for using cyclin-dependent kinase (CDK) inhibitor genes, or anti-sense constructs complementary to such genes, to modify the growth and development of plant cells and organs are disclosed. Also provided are methods of modifying the development of plant cells and plants by transforming plant cells with nucleic acids encoding cyclin-dependent kinase inhibitor polypeptides, or anti-sense constructs complementary to such nucleic acids, to produce transformed plant cells, and then culturing the plant cells or regenerating a plant under conditions wherein the cyclin-dependent kinase inhibitor, or the anti-sense construct, is expressed. A variety of CDK inhibitor genes, and corresponding anti-sense constructs, are disclosed for use in a variety of plants. The nucleic acid encoding the cyclin-dependent kinase inhibitor may be operably linked to a tissue-specific promoter. Other provided aspects are modified transgenic plants and plant tissues.

Abstract: A soybean cultivar designated S070158 is disclosed. The invention relates to the seeds of soybean cultivar S070158, to the plants of soybean S070158, to plant parts of soybean cultivar S070158 and to methods for producing a soybean plant produced by crossing soybean cultivar S070158 with itself or with another soybean variety. The invention also relates to methods for producing a soybean plant containing in its genetic material one or more transgenes and to the transgenic soybean plants and plant parts produced by those methods. This invention also relates to soybean cultivars or breeding cultivars and plant parts derived from soybean variety S070158, to methods for producing other soybean cultivars, lines or plant parts derived from soybean cultivar S070158 and to the soybean plants, varieties, and their parts derived from use of those methods. The invention further relates to hybrid soybean seeds, plants and plant parts produced by crossing the cultivar S070158 with another soybean cultivar.

Abstract: The invention relates to methods and compositions for modulating properties of fruit dehiscence in plants such Brassicaceae plants, specifically to improved methods and means for reducing seed shattering in Brassicaceae plants, particularly the Brassicaceae plants grown for oil production, to a degree which is agronomically important.

Abstract: The present invention relates to a plant cell which is genetically modified, the genetic modification leading to the reduction of the activity of one or more SSIII proteins which occur endogenously in the plant cell and to the reduction of the activity of one or more BEI proteins which occur endogenously in the plant cell and to the reduction of the activity of one or more BEII proteins which occur endogenously in the plant cell in comparison with corresponding plant cells, of wild-type plants, which have not been genetically modified. Further aspects of the invention relate to plants containing such plant cells, to a method for generating the plant cells and plants, and to the starch obtainable from them.

Abstract: The invention provides isolated cellulose synthase nucleic acids and their encoded proteins. The present invention provides methods and compositions relating to altering cellulose synthase concentration and/or composition of plants. The invention further provides recombinant expression cassettes, host cells, and transgenic plants.

Abstract: The present invention provides a transgenic maize plant having in its genome transgenic DNA including sequence for zein reduction and sequence for lysine biosynthesis, whereby expression of the transgenic DNA results in a synergistically increased lysine content of seed of the transgenic maize plant. The invention further provides a method for providing maize seed with synergistically increased lysine content.

Abstract: The present invention relates to rice genomic promoter sequences which promote transcription preferentially in microspores and/or pollen of plants. Also provided are chimeric genes comprising these promoter sequences, and plant transformation vectors comprising these chimeric genes. The present invention also discloses plant cells, plant tissues, plants, seeds and grains comprising these chimeric genes. The invention further discloses methods for expressing foreign nucleic acid sequences preferentially in pollen and for producing plants with modified pollen fertility.

Abstract: The present disclosure provides methods, recombinant DNA molecules, recombinant host cells containing the DNA molecules, and transgenic plant cells, plant tissue and plants which contain and express at least one antisense or interference RNA specific for a thiamine biosynthetic coding sequence or a thiamine binding protein or a thiamine-degrading protein, wherein the RNA or thiamine binding protein is expressed under the regulatory control of a transcription regulatory sequence which directs expression in male and/or female reproductive tissue. These transgenic plants are conditionally sterile; i.e., they are fertile only in the presence of exogenous thiamine. Such plants are especially appropriate for use in the seed industry or in the environment, for example, for use in revegetation of contaminated soils or phytoremediation, especially when those transgenic plants also contain and express one or more chimeric genes which confer resistance to contaminants.

Abstract: The invention provides methods for decreasing lignin content and improving lignin profiles. Also provided are the plants prepared by the methods of the invention. Such plants may exhibit improved digestibility relative to prior plants.

Abstract: The present invention concerns double stranded RNA compositions and transgenic plants capable of inhibiting expression of essential genes in parasitic nematodes, and methods associated therewith. Specifically, the invention relates to the use of RNA interference to inhibit expression of a target essential parasitic nematode gene, which is a parasitic nematode pas-5 gene, and relates to the generation of plants that have increased resistance to parasitic nematodes.

Abstract: A switchable photosystem-II designer algae for photobiological hydrogen production. The designer transgenic algae includes at least two transgenes for enhanced photobiological H2 production wherein a first transgene serves as a genetic switch that can controls photosystem II (PSII) oxygen evolution and a second transgene encodes for creation of free proton channels in the algal photosynthetic membrane. In one embodiment, the algae includes a DNA construct having polymerase chain reaction forward primer (302), a inducible promoter (304), a PSII-iRNA sequence (306), a terminator (308), and a PCR reverse primer (310). In other embodiments, the PSII-iRNA sequence (306) is replaced with a CF1-iRNA sequence (312), a streptomycin-production gene (314), a targeting sequence (316) followed by a proton-channel producing gene (318), or a PSII-producing gene (320). In one embodiment, a photo-bioreactor and gas-product separation and utilization system produce photobiological H2 from the switchable PSII designer alga.

Abstract: A soybean cultivar designated HFPR-5 is disclosed. The invention relates to the seeds of soybean cultivar HFPR-5, to the plants of soybean HFPR-5, to plant parts of soybean cultivar HFPR-5 and to methods for producing a soybean plant produced by crossing soybean cultivar HFPR-5 with itself or with another soybean variety. The invention also relates to methods for producing a soybean plant containing in its genetic material one or more transgenes and to the transgenic soybean plants and plant parts produced by those methods. This invention also relates to soybean cultivars or breeding cultivars and plant parts derived from soybean variety HFPR-5, to methods for producing other soybean cultivars, lines or plant parts derived from soybean cultivar HFPR-5 and to the soybean plants, varieties, and their parts derived from use of those methods. The invention further relates to hybrid soybean seeds, plants and plant parts produced by crossing the cultivar HFPR-5 with another soybean cultivar.

Abstract: The present invention relates to plant cells and plants, which are genetically modified, wherein the genetic modification leads to the reduction of the activity of a Class 3 vegetable branching enzyme in comparison with corresponding wild type plant cells or wild type plants that have not been genetically modified. Furthermore, the present invention relates to means and methods for the manufacture of such plant cells and plants. Plant cells and plants of this type synthesise a modified starch. The present invention therefore also relates to the starch synthesised by the plant cells and plants according to the invention as well as to methods for the manufacture of the starch and to the manufacture of starch derivatives of this starch. Furthermore, the present invention relates to nucleic acids coding a Class 3 branching enzyme, vectors, host cells, plant cells and plants containing such nucleic acid molecules.

Abstract: A nucleic acid which encodes a peroxisomal fatty acid transporter, uses thereof and a method of genetic manipulation of peroxisomal fatty acid transport and/or Metabolism. The nucleic acid and its products are especially for use in regulation of peroxisomal fatty acid transport in plant and in controlling the spectrum of fatty acids which can be utilised by the plant.

Abstract: The present invention is directed to 5? regulatory regions of a cotton seed-specific gene, ?-globulin. The 5? regulatory region, or parts thereof, when operably linked to either the coding sequence of a native gene, heterologous gene or a sequence complementary to a native plant gene, direct expression of the coding sequence or complementary sequence in a plant seed. The regulatory regions are useful in expression cassettes and expression vectors for the transformation of plants. Also provided are methods of modulating the levels of a native or heterologous gene such as a fatty acid synthesis or lipid metabolism gene by transforming a plant with the subject expression cassettes and expression vectors.

Abstract: The present invention is directed to an isolated starch, a transgenic plant or plant part producing the starch, flour and a thickened foodstuff prepared from a grain capable of producing such isolated starch. The present invention is directed to a method for altering starch amylose composition of a cereal grain.

Abstract: The present invention relates to the field of plant genetic engineering. More specifically, the present invention relates to seed specific gene expression during a defined period of embryogenesis. The present invention provides promoters capable of transcribing heterologous nucleic acid sequences in seeds, and methods of modifying, producing, and using the same.

Abstract: Maize plants with reduced gene silencing are disclosed.

Abstract: DNA encoding a plant quinolate phosphoribosyl transferase (QPRTase) enzyme, and constructs comprising such DNA are provided. Methods of altering quinolate phosphoribosyl transferase expression are provided.

Abstract: Methods for altering levels in plants of one or more phenolic compounds that are intermediates or final products of the plant phenylpropanoid pathway are provided. One method comprises transforming a plant cell with an expression construct comprising a nucleic acid which encodes a transactivator protein comprising the myb domain of the maize “ZmMyb-IF35” protein and an activation domain. Another method comprises transforming a plant cell with an expression construct comprising a transgene which encodes an antisense ZmMyb-IF35 RNA. The present invention also relates to expression constructs and vectors used in the present methods, transformed plant cells and transgenic plants prepared according to the present methods, and the seeds of such transgenic plants.

Abstract: The present disclosure concerns methods and compositions relating to UXS polypeptides and/or nucleic acids encoding UXS polypeptides. In certain claims, the methods and compositions are of use to improve digestibility and/or ease of grain processing. Such improvements relate to a modulation in arabinoxylan and/or hemicellulose content in transgenic plants. Such plants can, for example, comprise one or more nucleic acid sequences that inhibit expression of one or more UDP-Xylose Synthase (UXS) genes.

Abstract: The invention relates to methods for the directed, transgenic expression of nucleic acid sequences in the carbohydrate-storing sink tissues of plants using transgenic expression cassettes which comprise the Vicia faba plastidic 1,4-?-D-glucan:phosphate ?-D-glucosyltransferase promoter. Furthermore, the invention relates to said transgenic expression cassettes and to transgenic expression vectors and transgenic organisms comprising them, and to the use of the same for the production of foodstuffs, feedstuffs, seed, pharmaceuticals or fine chemicals.

Abstract: The invention provides isolated cellulose synthase nucleic acids and their encoded proteins. The present invention provides methods and compositions relating to altering cellulose synthase concentration and/or composition of plants. The invention further provides recombinant expression cassettes, host cells, and transgenic plants.

Abstract: This invention relates to compounds for improving plant growth and characteristics, improved modified plants, processes for obtaining the same, and improved methods of obtaining plant products, and specifically those concerning AtGLR1.1.