DMI1 gene encodes a protein that is required for the early...

Multicellular living organisms and unmodified parts thereof and – Method of introducing a polynucleotide molecule into or...

Reexamination Certificate

Rate now

  [ 0.00 ] – not rated yet Voters 0   Comments 0

Details

C536S023600, C435S320100, C435S468000, C800S298000, C800S295000

Reexamination Certificate

active

10739736

ABSTRACT:
The invention relates to isolated DMI11 genes fromMedicago truncatulawhich play a major role both in the early steps of Nod factor signaling that trigger several key developmental responses in the host plant and in the establishment of mycorrhizal symbiosis. The invention also relates to transgenic plants and plant cells expressing the DMI1 protein for increased root nodulation, and methods for transforming plants with aM. truncatulaDMI1 gene.

REFERENCES:
patent: WO 02/102841 (2002-12-01), None
Ané, Jean-Michel et al. (2004) “Medicago Truncatula DMI1 Required for Bacterial and Fungal Symbioses in Legumes”Science, 303:1364-1367.
Cook, Douglas R. et al. (2003). “Towards the Complete Gene Inventory Function of the Medicago Truncatula Genome.” Annual Report National Science Foundation, Award# 0110206, University of California, Davis, (Jun. 2003) pp. 1-66.
Ane, Jean-Michael, et al. Medicago Truncatula DMI1 Required for Bacterial and Fungal Symbioses in Legumes, Science, 303:1364-1367 (Feb. 27, 2004).
Amor, Besma Ben et al. (2003) “TheNFPlocus ofMedicago truncatulacontrols an early step of Nod factor signal transduction upstream of a rapid calcium flux and root hair deformation”The Plant Journal34: 495-506.
Anantharaman, Vivek et al. (2001) “Regulatory Potential, Phyletic Distribution and Evolution of Ancient, Intracellular Small-molecule-binding Domains”J. Mol. Biol. 307: 1271-1292.
Ané, Jean-Michel et al. (Oct. 2003) “Progress towards the cloningMedicago truncatula DMI1, a gene that is required for early steps in bacterial and fungal symbiosis”Western Section of the American Society of Plant Biologists meeting on Plant Genomics 2003; UC Davis: 11 pages.
Ané, Jean-Michel et al. (2002) “Genetic and Cytogenetic Mapping ofDMI1, DMI2,andDMI3Genes ofMedicago truncatulaInvolved in Nod factor Transduction, Nodulation, and Mycorrhization”MPMI15 (11): 1108-1118.
Boisson-Dernier, Aurélien et al. (2001) “Agrobacterium rhizogenes-Transformed Roots ofMedicago truncatulafor the Study of Nitrogen-Fixing and Endomycorrhizal Symbiotic Associations”MPMI14(6): 695-700.
Bornberg-Bauer, Erich et al. (1998) “Computational approaches to identify leucine zippers”Nucleic Acids Research26 (11): 2740-2746.
Catoira, R., et al. (Sep. 2000) “Four Genes OfMedicago truncatulaControlling Components of a Nod Factor Transduction Pathway”The Plant Cell12:1647-1665.
Cook, Douglas R. (1999) “Medicago truncatula- a model in the making!”Current Opinion in Plant Biology2: 301-304.
Cullimore, Julie V. et al. (Jan. 2001) “Perception of lipo-chitooligosaccharidic Nod factors in legumes”TRENDS in Plant Science6 (1): 24-30.
Dé´narié, Jean et al. (1996) “Rhizobium Lipo-Chitooligosaccharide Nodulation Factors: Signaling Molecules Mediating Recognition and Morphogenesis”Annu. Rev. Biochem. 65: 503-35.
Den Hartog, Martine et al. (2001) “Nod factor-induced phosphatidic acid and diacylglycerol pyrophosphate formation: a role for phospoluipase C and D in root hair deformation”The Plant Journal25 (1): 55-65.
Endre, Gabriella et al. (Jun. 27, 2002) “A receptor kinase gene regulating symbiotic nodule development”Nature417: 962-966.
Etzler, Marilynn et al. (May 1999) “A nod factor binding lectin with a pyrase activity from legume roots”PNAS USA96: 5856-5861.
Geurts, René and Ton Bisseling (2002) “RhizobiumNod Factor Perception and Signalling”The Plant CellSupplement: S239-249.
Gressent, Frederic et al. (Apr. 1999) “Ligand spwcificity of a high-affinity binding site for lipo-chitoologosaccharidic Nod factors inMedicagocell suspension cultures”Proc. Natl. Acad. Sci. USA96: 4704-4709.
Heckman, Daniel S. et al, (Aug. 10, 2001) “Molecular Evidence for the Early Colonization of Land by Fungi and Plants”Science293: 1129-1133.
Jiang, Youxing et al. (May 1, 2003) “X-ray structure of a voltage-dependent K+ channel”Nature423:33-41.
Limpens, Erik et al. (Aug. 28, 2003) “LysM Domain Receptor Kinases Regulating Rhizobial Nod Factor-Induced Infection”Sciencexpress. Accessed Jan. 16, 2004 from the World Wide Web at: http://www.sciencemag.org/cgi/content/full/1090074/DC1.
Long, Sharon R. (Oct. 1996) “Rhizobium Symbiosis: Nod Factors in Perspective”The Plant Cell8: 1885-1898.
Madsen, Esben Bjørn et al. (Oct. 9, 2003) “A receptor kinase gene of the LysM type is involved in legume perception of rhizobial signals”Nature425; 637-640.
Mäser, Pascal et al. (Apr. 30, 2002) “Glycine residues in potassium channel-like selectively filters determine potassium selectivity in four-loop-per-subunit HKT transporters from plants”PNAS99 (9):6428-6433.
McKnight, Thomas D. et al. (2002) “Telomeres, telomerase, and stability of the plant genome”Plant Molecular Biology48: 331-337.
Nam, Y.-W. et al. (1999) “Construction of a bacterial artificial chromosome library ofMedicago truncatulaand identification of clones containing ethylene-response genes”Theor Appl Genet98:638-646.
Nielsen, Henrik et al. (1997) “Identification of prokaryotic and eukaryotic signal peptides and prediction of their cleavage sites”Protein Engineering10 (1): 1-6.
Novák, K. (2003) “Allelic Relationships of Pea Nodulation Mutants”Journal of Heredity94 (2): 191-193.
Oldroyd, Giles E.D. and Sharon R. Long (Mar. 2003) “Identification and Characterization ofNodulation-Signaling Pathway2, a Gene ofMedicago truncatula Involved in Nod Factor Signaling” Plant Physiology131: 1027-1032.
Parniske, Martin and J. Allen Downie (Oct. 9, 2003) “Locks, keys and symbioses”Nature425:569-570.
Penmetsa, R. V., et al. (Aug. 2000) “Production and Characterization of Diverse Developmental Mutants ofMedicago truncatula1” Plant Physiology123: 1387-1397.
Penmetsa, Ramachandra Vanna (Dec. 1998) “Development of a Genetic System inMedicago truncatulaProduction and Characteristics of Developmental and Symbiotic Mutants” Dissertation, Texas A&M University: 107 pages.
Pingret, Jean-Luc et al. (May 1998) “RhizobiumNod Factor Signaling: Evidence for a G Protein-Mediated Transduction Mechanism”The Plant Cell10: 659-671.
Radutoiu, Simona et al. (Oct. 9, 2003) “Plant recognition of symbiotic bacteria requires two LysM receptor-like kinases”Nature425: 585-592.
Sagan, Muriel et al. (1995) “Selection of nodulation and mycorrhizal mutants in the model plantMedicago truncatula(Gaertn.) after γ-ray mutagenesis”Plant Science111: 63-71.
Schultze, M. and A. Kondorosi (1998) “Regulation of Symbiotic Root Nodule Development”Annu. Rev. Genet. 32: 33-57.
Stracke, Silke et al. (Jun. 27, 2002) “A plant receptor-like kinase required for both bacterial and fungal symbiosis”Nature417: 959-962.
Thoquet, Phillippe et al. (Jun. 2, 2002) “The molecular genetic linkage map of the model legumeMedicago truncatula: an essential tool for comparative legume genomics and the isolation of agronomically important genes”BMC Plant Biology2:1 (13 pages).
Wais, R. J., et al. (Nov. 2000) “Genetic Analysis of Calcium Spiking Responses in Nodulation Mutants ofMedicago truncatula” PNAS 97: 13407-13412.

LandOfFree

Say what you really think

Search LandOfFree.com for the USA inventors and patents. Rate them and share your experience with other people.

Rating

DMI1 gene encodes a protein that is required for the early... does not yet have a rating. At this time, there are no reviews or comments for this patent.

If you have personal experience with DMI1 gene encodes a protein that is required for the early..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and DMI1 gene encodes a protein that is required for the early... will most certainly appreciate the feedback.

Rate now

     

Profile ID: LFUS-PAI-O-3725443

  Search
All data on this website is collected from public sources. Our data reflects the most accurate information available at the time of publication.