Chemistry: molecular biology and microbiology – Process of mutation – cell fusion – or genetic modification – Introduction of a polynucleotide molecule into or...
Reexamination Certificate
2005-02-22
2009-06-30
Worley, Cathy Kingdon (Department: 1638)
Chemistry: molecular biology and microbiology
Process of mutation, cell fusion, or genetic modification
Introduction of a polynucleotide molecule into or...
C435S455000, C435S471000, C435S440000, C800S278000, C536S023400, C536S024100, C536S023600
Reexamination Certificate
active
07553667
ABSTRACT:
The invention provides a method to regulate expression of a gene of interest in a plant comprising, introducing into the plant a first nucleotide sequence comprising, the gene of interest operatively linked to a first regulatory region, and an operator sequence capable of binding a fusion protein, and a second nucleotide sequence comprising a second regulatory region in operative association with a nucleotide sequence encoding the fusion protein. The fusion protein comprising, a DNA binding protein, or a portion thereof, capable of binding the operator sequence, and a recruitment factor protein, or a portion thereof, capable of binding a chromatin remodelling protein. In this manner, expression of the second nucleotide sequence produces the fusion protein that regulates expression of the gene of interest.
REFERENCES:
patent: 5428147 (1995-06-01), Barker et al.
patent: 2003/0143712 (2003-07-01), Verdin et al.
patent: 2006/0123506 (2006-06-01), Hannoufa et al.
patent: 2 407 460 (2001-11-01), None
patent: 1 094 112 (2001-04-01), None
patent: 97/35990 (1997-10-01), None
patent: 98/37184 (1998-08-01), None
patent: 00/37660 (2000-06-01), None
Mehra-Chaudhary et al. Msx3 protein recruits histone deacetylase to down-regulate the Msx1 promoter. (Biochem. J. (2001) vol. 353, pp. 13-22).
Jenster et al. Steroid receptor induction of gene transcription: a two-step model. (1997) PNAS, vol. 94, pp. 7879-7884.
Murfett et al. Identification of Arabidopsis histone deacetylase HDA6 mutants that affect transgene expression. (2001) The Plant Cell, vol. 13, pp. 1047-1061.
Ma et al. Plant antibodies for immunotherapy. (1995) Plant Physiol. vol. 109, pp. 341-346.
Wade et al., “Histone acetylation: chromatin in action”, Trends in Biochemical Sciences (1997); 22: 128-132.
Hampsey, “A SAGA of histone acetylation and gene expression”, Trends in Genetics (1997); 13: 427-429.
Brown et al., “The many HATs of trascription coactivators”, Trends in Biochemical Sciences (2000); 25: 15-19.
Ahmad et al., “WD Repeats of the p48 Subunit of Chicken Chromatin Assembly Factor-1 Required for in Vitro Interaction with Chicken Histone Deacetylase-2”, Journal of Biological Chemistry (1999); vol. 274, No. 23: 16646-16653.
Altschul et al., “Gapped BLAST and PSI-BLAST: a new generation of protein database search programs”, Nucleic Acids Research (1997); vol. 25, No. 17: 3389-3402.
An et al., “Strong, constitutive expression of theArabidopsis ACT2/ACT8actin subclass in vegetative tissues”, The Plant Journal (1996); vol. 10, No. 1: 107-121.
Archdeacon et al., “A single amino acid substitution beyond the C2H2-zinc finger in Ros derepresses virulence and T-DNA genes inAgrobacterium tumefaciens”, FEMS Microbiology Letters (2000); 187: 175-178.
Bannister et al., “The CBP co-activator is a histone acetyltransferase”, Nature (1996); vol. 384: 641-643.
Beetham et al., “A tool for functional plant genomics: Chimeric RNA/DNA oligonucleotides cause in vivo gene-specific mutations”, Proceedings of the National Academy of Sciences of USA (1999); vol. 96: 8774-8778.
Berleth et al., “Plant morphogenesis: long-distance coordination and local patterning”, Current Opinion in Plant Biology (2001); vol. 4: 57-62.
Bittinger et al., “rosR, a Determinant of Nodulation Competitiveness inRhizobium etli”, Molecular Plant-Microbe Interactions (1997); vol. 10, No. 2: 180-186.
Boyle et al., “Repression of the Defense GenePR-10α by the Single-Stranded DNA Binding Protein SEBF”, The Plant Cell (2001); vol. 13: 2525-2537.
Brandstatter et al., “Two Genes with Similarity to Bacterial Response Regulators Are Rapidly and Specifically Induced by Cytokinin inArabidopsis”, The Plant Cell (1998); vol. 10: 1009-1019.
Brightwell et al., “Pleiotropic Effects of RegulatoryrosMutants ofAgrobacterium radiobacterand Their Interaction with Fe and Glucose”, Molecular Plant-Microbe Interactions (1995); vol. 8, No. 5: 747-754.
Burge et al., “Prediction of Complete Gene Structures in Human Genomic DNA”, Journal of Molecular Biology (1997); vol. 268: 78-94.
Caddick et al., “An ethanol inducible gene switch for plants used to manipulate carbon metabolism”, Nature Biotechnology (1998); vol. 16: 177-180.
Carrington et al., “Bipartite Signal Sequence Mediates Nuclear Translocation of the Plant Potyviral Nla Protein”, The Plant Cell (1991); vol. 3: 953-962.
Chou et al., “Agrobacteriumtranscriptional regulator Ros is a prokaryotic zinc finger protein that regulates the plant oncogeneipt” Proceedings of the National Academy of Sciences of USA (1998); vol. 95: 5293-5298.
Chrivia et al., “Phosphorylated CREB binds specifically to the nuclear protein CBP”, Nature (1993); vol. 365: 855-859.
Clough et al., “Floral dip: a simplified method forAgrobacterium-mediated transformation ofArabidopsis thaliana” The Plant Journal (1998); vol. 16, No. 6: 735-743.
Cooley et al., “ThevirCandvirDOperons of theAgrobacteriumTi Plasmid Are Regulated by therosChromosomal Gene: Analysis of the ClonedrosGene” Journal of Bacteriology (1991); vol. 173, No. 8: 2608-2616.
D'Souza-Ault et al., “Analysis of the Ros Repressor ofAgrobacterium virCandvirDOperons: Molecular Intercommunication between Plasmid and Chromosomal Genes” Journal of Bateriology (1993); vol. 175, No. 11: 3486-3490.
Eisner et al., “Analysis ofArabidopsis thalianatransgenic plants transformed withCER2andCER3genes in sense and antisense orientations” Theoretical and Applied Genetics (1998); vol. 97: 801-809.
Emiliani et al., “Characterization of a humanRPD3ortholog, HDAC3”, Proceedings of the National Academy of Sciences of USA (1998); vol. 95: 2795-2800.
Fischle et al., “A New Family of Human Histone Deacetylases Related toSaccharomyces cerevisiaeHDA1p” The Journal of Biological Chemistry (1999); vol. 274, No. 17: 11713-11720.
Fukaki et al., “Genetic evidence that the endodermis is essential for shoot gravitropism inArabidopsis thaliana” The Plant Journal (1998); vol. 14, No. 4: 425-430.
Gao et al., “Regulation and characterization of fourCBFtranscription factors fromBrassica napus”, Plant Molecular Biology (2002); vol. 49, 459-471.
Gao et al., “Expression of the extrinsic 23-kDa protein of photosystemIIin response to salt stress is associated with the K+/Na+ discrimination locusKna 1in wheat”, Plant Cell Reports (2001); vol. 20: 774-778.
Gao et al., “A novel protein fromBrassica napushas a putative KID domain and responds to low temperature”, The Plant Journal (2003); vol. 33: 1073-1086.
Gatz, Christiane, “Chemical Control of Gene Expression”, Annual Review Plant Physiology and Plant Molecular Biology (1997); vol. 48: 89-108.
Gatz et al., “Promoters that respond to chemical inducers”, Trends in Plant Science (1998); vol. 3, No. 9: 352-358.
Gelmetti et al., “Aberrant Recruitment of the Nuclear Receptor Corepressor-Histone Deacetylase Complex by the Acute Myeloid Leukemia Fusion Partner ETO” Molecular and Cellular Biology (1998); vol. 18, No. 12: 7185-7191.
Gonzalez et al., “Characterization of Motifs Which Are Critical for Activity of the Cyclic AMP-Responsive Transcription Factor CREB”, Molecular and Cellular Biology (1991); vol. 11, No. 3: 1306-1312.
Gonzalez et al., “Cyclic AMP Stimulates Somatostatin Gene Transcription by Phosphorylation of CREB at Serine 133” Cell (1989); vol. 59: 675-680.
Grustein, Michael, “Histone acetylation in chromatin structure and transcription”, Nature (1997): vol. 389: 349-352.
Hart et al., “A 61 bp enhancer element of the tobacco β-1,3-glucanase B gene interacts with one or more regulated nuclear proteins”, Plant Molecular Biology (1993); vol. 21: 121-131.
Hassig et al., “Histone Deacetylase Activity
Gao Ming-Jun
Hannoufa Abdelali
Lydiate Derek J.
Her Majesty the Queen in right of Canada as represented by the M
Kingdon Worley Cathy
Merchant & Gould P.C.
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