Chemistry: molecular biology and microbiology – Virus or bacteriophage – except for viral vector or...
Reexamination Certificate
2003-11-26
2008-12-16
Carlson, Karen Cochrane (Department: 1656)
Chemistry: molecular biology and microbiology
Virus or bacteriophage, except for viral vector or...
C435S183000, C530S350000
Reexamination Certificate
active
07465573
ABSTRACT:
Purified nucleic acid which can specifically hybridize with the sequence of swine retroviruses.
REFERENCES:
patent: 5089386 (1992-02-01), Stackebrandt et al.
patent: 5614187 (1997-03-01), Sachs
patent: 6261806 (2001-07-01), Banerjee et al.
patent: 6756227 (2004-06-01), Galbraith et al.
patent: 0 331 939 (1989-09-01), None
patent: WO 93/04169 (1993-03-01), None
patent: WO 95/31566 (1995-11-01), None
patent: WO 97/21836 (1997-06-01), None
patent: WO 97/40167 (1997-10-01), None
Freed. 1998; HIV-1 Gag Proteins: Diverse Functions in the Virus Life Cycle. Virology 251:1-15.
Freed. 2002; Viral late Domains. J. Virology 76(10): 4679-4687.
Aliyoshi et al. 1998; Identification of a full-length cDNA for an edogenous Retrovirus of Miniature Swine. J. Virology 72(5): 4503-4507.
Hayashi et al. 1992. Molecular Cloning and Characterization of the Gene Encoding Mouse Melanoma Antigen by cDNA Library Transfection. J. Immunol. 149:1223-1228.
Aaronson et al., “Endogenous Type-C RNA Viruses of Mammalian Cells,”Bio. et Biophys. Acta458:323-354 (1976).
Alexander et al., “Medicated Early Weaning: A Method of Breaking the Cycle of Endemic Infection,”Proc. 6thInt. Congr. Pig. Vet. See, Copenhagen (1980).
Armstrong et al., “C-type virus particles in pig kidney cell lines,”J. Gen. Virol. 10:195-198 (1971).
Auchincloss, Jr., “Xenogeneic Transplantation,”Transplantation46:1-19 (1988).
Benveniste et al., “Evolution of type C viral genes: preservation of ancestral murine type C viral sequences in pig cellular DNA”PNAS72:4090-4094 (1975).
Benveniste et al., “Multiple divergent copies of endogenous C-type virogenes in mammalian cells,”Nature252:170-173 (1974).
Beneviste et al., “Homology Between Type-C Viruses of Various Species as Determined by Molecular Hybridization,”Proc. Nat. Acad. Sci.,USA vol. 70, No. 12, Part I, pp. 3316-3320 (1973).
Betts, “Pathogen-Free Pigs for Research and the Practical Control of Pig Diseases,”The Veterinary Record, 79;49:1349-1356 (1961).
Betts et al., “The Production by Hysterectomy of Pathogen-Free, Colostrum-Deprived Pigs and the Foundation of a Minimal-Disease Herd,”Veterinary Record72:461-468 (1960).
Bouillant et al., “Multisequential transformation of a pig cell line (PFT): Correlations between tumorigenicity and chromosome and ultrastructural markers,”JNCI64(4):783-788 (1980).
Bouillant et al., “Nontumoral, benign and malignant stages of transformation of a diploid pig cell line. A Review,”Can. J. Comp. Med. 45:279-290 (1981).
Bouillant et al., “Type C virus production by a continuous line of pig oviduct cells (PFT),”J. Gen. Virol. 27:173 (1975).
Bouillant et al., “Ultrastructural Comparison of Oncovirinae (type C), Spumavirinae, and Lentivirinae: three Subfamilies of Retroviridae Found in Farm Animals,”J. Nat. Cancer Institute72:1075 (1984).
Bowes, “Localization of a retroviral element within the rd gene coding the Beta Subunit of cGMP phosphodiesterase,”PNAS USA90:2955-2959 (1993).
Brede et al., “Bacteriological and Viological Considerations in Primate Transplants,”Primates in Medicine, vol. 7, pp. 18-28 (1972).
Busse et al., “Further investigations on the porcine lymphoma C-type particle (PLCP) and the possible biological significance of the virus in pigs,”Ann. Rech. Vet. 5(4):651-658 (1978).
Busse et al., “Partial analysis of the polypeptide composition of a porcine lymphoma C-type particle (PLCP)”Zbl. Vet. Med. B. 28:118-125 (1981).
Calne, “Organ Transplantation Between Widely Disparate Species,”Transplantation Proceedingsvol. II, No. 4, pp. 550-553 (1970).
Caldwell et al., “Swine Repopulation II. Performance of ‘Disease-Free’ Boars on Farms with Diseased Pigs,”American Veterinary Medical Association135:504-505 (1959).
Castro et al., “Persistent Infection of Baboons and Rhesus Monkeys with Different Strains of HIV-2,”Virology184:219-226 (1991).
Chen B-F et al., “Characterization of a Bicistronic Retroviral Vector Composed of the Swine Vesicular Disease Virus Internal Ribosome Entry Site,”J. Virol., 67:2142-2148 (1993).
Chiche, “Xenotransplantation: Baboons as Potential Liver Donors,”Transplantation6:1418-1421 (1993).
D'Aquila, R.T., “HIV-1 chemotherapy and drug resistance,”Clinical and Diagnostic Virology3:299-316 (1995).
D'Aquila, R.T. et al., “Zidovudine Resistance and HIV-1 Disease Progression during Antiretroviral Therapy,”Annals of Internal Medicine122(6):401-408 (1995).
Delassus et al., “Genetic Organization of the Gibbon Ape Leukemia Virus,”Virology173:205-213 (1989).
Devare et al., “Nucleotide Sequence of the Simian Sarcoma Virus Genome: Demonstration that its Acquired Cellular Sequences Encode the Transforming Gene Product p28,”PNAS USA80:731-735 (1983).
Eron, J.J. et al., “Susceptibility testing by polymerase chain reaction DNA quantitation: A method to measure drug resistance of human immunodeficiency virus type 1 isolates,”PNAS USA89:3241-3245 (1992).
Fishman, J.A., “Miniature swine as organ donors for man: Strategies for prevention of xenotransplant-associated infections,”Xenotransplantation1:47-57 (1994).
Fishman, J.A., “Preventing infections in xenotransplantation: xenosis from miniature swine,”Xeno3(4):72-77 (1995).
Frazier, “Evidence for retrovirus in miniature swine with radiation-induced leukemia or metaplasia,”Arch. of Virology83:83-97 (1985).
Frazier et al., “Virus association with90Sr Induced leukemia of miniature swine,”Comparative Leukemia Res. 36:440-445 (1969).
Gerard et al., “DNA Encoding a Novel Reverse Transcriptase . . . ”European Molecular Biology Laboratory, Database Accession No. AAQ91980 (Apr. 11, 1995).
Jarrett, “Evidence for the viral etiology of leukemia in the domestic mammals,”Adv. Cancer Res. 13 (1970).
Kadota et al., “Ultrastructure and C-type particles in myeloid leukemia of a pig,”Vet. Pathol. 21:263-265 (1984).
Kaeffer et al., “Histocompatible miniature pig (d/d haplo-type): generation of hybridomas secreting A or M monoclonal antibody,”Hybridoma10:731 (1991).
Kaeffer et al., “Immortal porcine lymphoblastoid cell lines: interest for veterinary and medical research,”Vet. Res. 25:425 (1994).
Kaeffer et al., “Histocompatible miniature boar model: selection of transformed cell lines of B and T lineages producing retrovirus,”Int. J. Cancer46:481-488 (1990).
Kaeffer et al., “Epithelioid and fibroblastic cell lines derived from the ileum of an adult histocompatible miniature board (dd/d haplotype) and immortalized by SV40 plasmid,”Euro. J. of Cell Biology62:152-162(1993).
Kalter, “The Nonhuman Primate as Potential Organ Donor for Man: Virological Considerations,”Xenotransplantation: The Transplantation of Organs and Tissues Between Speciespp. 457-479 (1991).
Leman et al., “Diseases of Swine” 7thEd, Ames, Iowa, Iowa State University Press (1992) (Table of Contents only).
Letvin et al., “Infection of Baboons with Human Immunodeficiency Virus-2 (HIV-2),”J. Infectious Diseases156:406-407 (1987).
Lieber et al., “Biologic and immunologic properties of porcine Type C viruses,”Virology66:616 (1975).
Lieber et al., “Mammalian cells in culture frequently release type C viruses,”Science182:56-59 (1973).
McClure et al., “HIV Infection of Primate Lymphocytes and Conservation of the CD4 Receptor,”Nature330:487-489 (1987).
Metzger et al., “Transplantation in Miniature Swine,”J. Immunol. 127:769-775 (1981).
Moehring et al., “The Exogenous RD-114 and the Related Endogenous Proviral Element ECE1 of Domestic Cat . . . ”European Molecular biological Laboratory, Database Accession No. X51929 (Apr. 2, 1990)
Carlson Karen Cochrane
Choate Hall & Stewart LLP
Furman Margo H.
The General Hospital Corporation
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