Patent application number | Description | Published |
20090062514 | PLANT VIRAL PARTICLES COMPRISING A PLURALITY OF FUSION PROTEINS CONSISTING OF A PLANT VIRAL COAT PROTEIN, A PEPTIDE LINKER AND A RECOMBINANT PROTEIN AND USE OF SUCH PLANT VIRAL PARTICLES FOR PROTEIN PURIFICATION - A process of purifying a protein of interest using viral particles or virus-like particles comprising a plurality of fusion protein molecules, said fusion protein comprising the following fusion protein domains: (i) a plant viral coat protein, (ii) a recombinant protein, and (iii) optionally a peptide linker linking said plant viral coat protein and said recombinant protein, wherein formation of said viral particle does not require free viral coat protein. | 03-05-2009 |
20090111145 | PRODUCTION OF HETERO-OLIGOMERIC PROTEINS IN PLANTS - Process of producing in a plant, in plant tissue, or in plant cells a hetero-oligomeric protein comprising at least a first and a second protein subunit, said process comprising expressing in plant cells at least said first and said second protein subunit by (i) providing to said plant, said plant tissue or said plant cells a plus-sense single-stranded RNA viral vector encoding at least said first and said second protein subunit or (ii) providing to said plant, said plant tissue or said plant cells a first and a second plus-sense single-stranded RNA viral vector, said first viral vector encoding at least said first protein subunit, said second viral vector encoding at least said second protein subunit, whereby at least said first viral vector and said second viral vector are non-competing viral vectors. | 04-30-2009 |
20090265814 | Plant transformation with in vivo assembly of a sequence of interest - A process of producing transgenic plants or plant cells stably transformed on a chromosome with a DNA sequence of interest and capable of expressing a function of interest from said DNA sequence of interest, said process comprising (a) providing plant cells or plants with at least two different vectors, whereby (i) said at least two different vectors are adapted to recombine with each other by site-specific recombination in said plant cells for producing a non-replicating recombination product containing said DNA sequence of interest, (ii) said at least two different vectors are adapted for integrating said DNA sequence of interest into said chromosome, (iii) said DNA sequence of interest contains sequence portions from at least two of said at least two different vectors, said sequence portions being necessary for expressing said function of interest from said DNA sequence of interest; and (b) selecting plants or plant cells expressing said function of interest. | 10-22-2009 |
20090282579 | PLANT VIRUS-BASED INDUCIBLE EXPRESSION SYSTEM - A process of producing one or more than one protein of interest, comprising: (a) providing a plant or plant cells comprising a first heterologous nucleotide sequence comprising a nucleotide sequence encoding an RNA replicon, and a first inducible promoter operably linked to said nucleotide sequence encoding said RNA replicon; said RNA replicon not encoding a protein providing for cell-to-cell movement of said RNA replicon in said plant; said RNA replicon encoding a polymerase and said one or more than one protein of interest, said polymerase being adapted for replicating said RNA replicon; and (b) inducing, in said plant or plant cells of step (a), said inducible promoter, thereby producing said one or more than one protein of interest in said plant or plant cells. | 11-12-2009 |
20100138948 | TRANSGENIC PLANTS WITH CONTROLLED DISTRIBUTION OF A TRAIT TO PROGENY - A process of producing a transgenic multi-cellular plants or parts thereof expressing a trait of interest, said trait having a controlled distribution of said trait to progeny, wherein said process comprises (i) producing a first plant or a cell thereof having in a first locus of a nuclear chromosome a first heterologous nucleotide sequence comprising a first fragment of a nucleotide sequence encoding said trait of interest, (ii) producing a second plant or a cell thereof having in a second locus of a nuclear chromosome homologous to said nuclear chromosome of step (i), a second heterologous nucleotide sequence comprising a second fragment of the nucleotide sequence encoding said trait of interest, and (iii) hybridising said first and said second plant or cells thereof to generate progeny exhibiting said functional trait of interest due to binding between a protein or polypeptide encoded by said first heterologous nucleotide sequence and a protein or polypeptide encoded by said second heterologous nucleotide sequence. Further, the invention provides a process of producing hybrid seeds for agriculture. | 06-03-2010 |
20110263024 | PROCESS OF CLEAN CLONING - A process of inserting a nucleic acid sequence of interest into an acceptor nucleic acid, comprising the following steps:
| 10-27-2011 |
20130267021 | SYSTEM AND METHOD OF MODULAR CLONING - System for producing a nucleic acid construct of interest, said system comprising: a set of n entry DNAs numbered 1 to n, n being an integer of at least 2, each of said n entry DNAs comprising in this order: (i) a type IIs restriction endonuclease recognition site followed by the cleavage site thereof; (ii) a sequence portion linking the cleavage site of said recognition site of item (i) with the cleavage site of the recognition site of the following item (iii), and (iii) a cleavage site of a further type Ms restriction endonuclease recognition site followed by the recognition site of said cleavage site; the cleavage sites of the type IIs restriction endonuclease recognition sites of item (iii) of entry DNAs 1 to n−1 are complementary to the cleavage sites of the type IIs restriction endonuclease recognition sites of item (i) of entry DNAs 2 to n, respectively; the cleavage site of the type Ms restriction endonuclease recognition site of item (iii) of entry DNA n is complementary to the cleavage site of the type IIs restriction endonuclease recognition site of item (i) of entry DNA 1 for allowing annealing of complementary single-stranded overhangs formed by restriction at recognition site (i) of entry DNA 1 and at recognition site (iii) of entry DNA n; said system further comprising a destination vector comprising in this order: (I) a type Ms restriction endonuclease recognition site followed by the cleavage site thereof; (II) a vector backbone preferably comprising a selectable marker gene, said vector backbone linking the cleavage sites of said recognition sites of items (I) and the following item (III); (III) a further cleavage site of a type Ms restriction endonuclease recognition site followed by the recognition site of said cleavage site, and (IV) optionally, an insert between the recognition sites of item (III) and item (i); said cleavage sites of items (I) and (III) being different and non-complementary, said recognition sites of items (I) and (III) being preferably recognitions sites of the same endonuclease. | 10-10-2013 |