Chemistry: molecular biology and microbiology – Measuring or testing process involving enzymes or... – Involving nucleic acid
Patent
1996-11-25
2000-04-04
Hutzell, Paula K.
Chemistry: molecular biology and microbiology
Measuring or testing process involving enzymes or...
Involving nucleic acid
536 235, 536 243, 536 2431, 536 231, 4353201, C07H 2102, C07H 2104, C12Q 168
Patent
active
060459972
ABSTRACT:
The identification and sequencing of the BRCA2 gene is disclosed as well as the amino acid sequence of the corresponding BRCA2 polypeptides. BRCA2 alleles including those with mutations in the BRCA2 gene which are associated with a predisposition to develop cancer, especially breast and ovarian cancer are also disclosed. The present invention further relates to polypeptides encoded by the above nucleic acid. The present invention further relates to uses of much BRCA2 nucleic acid and BRCA2 polypeptides, in particular in the diagnostic, prognostic or therapeutic treatment of cancer.
REFERENCES:
patent: 5464758 (1995-11-01), Gossen et al.
Schutte et al. PNAS, USA 92:5950-5954, 1995.
R. Wooster et al.; Localization of a Breast Cancer Susceptibility Gene, BRCA2, to Chromosome 13q12-13, Science 265 (5181):2088-2090 (1994).
Y. Miki et al.; A Strong Candidate for the Breast and Ovarian Cancer Susceptibility Gene BRCA1, Science 266(5182):66-71 (1994).
J. Gudmundsson et al.; Different Tumor Types from BRCA2 Carriers Show Wild-Type Chromosome Deletions on 13q12-q13, Cancer Res. 55(21):4830-4832 (1995).
M. Schutte et al.; Identification by representational difference analysis of a homozygous deletion in pancreatic carcinoma that lies within the BRCA2 region, Proc. Natl. Acad. Sci. USA 92(13):5950-5054 (1995).
R. Wooster et al.; Identification of the breast cancer susceptibility gene BRCA2, Nature 378:789-792 (1995).
K. Foster et al.; Somatic and Germline Mutuations of the BRCA2 Gene in Sporadic Ovarian Cancer, Cancer Research 56:3622-3625 (1996).
D. Berman et al.; A Common Mutation in BRCA2 That Predisposes to a Variety of Cancers Is Found in Both Jewish Ashkenazi and Non-Jewish Individuals, Cancer Research 56:3409-3414 (1996).
A. Jacob et al.; Isolation of expressed sequences that include a gene for familial breat cancer (BRCA2) and othe rnovel transcripts from a five megabase region on chromosome 13q12, Oncogene 13:213-221 (1996).
F. Couch et al.; Generation of an Integrated Transcription Map of the BRCA2 Region on Chromosome 13q12-q13., Genomics 36:86-99 (1996).
S. Tavtigian et al.; The Complete BRCA2 Gene and Mutuations in Chromosome 13q-linked Kindreds, Nature Genetics 12:333-337 (1996).
S. Fischer et al.; A high-resolution annotated physical map of the human chromosome 13q12-13 region containing the breast cancer susceptibility locus BRCA2, Proc. Natl. Acad. Sci. USA 93:690-694 (1996).
J. Hall et al.; Linkage of early-onset familial breast cancer to chromosome 17q21, Science 250(4988):1684-1689 (1990).
D. Malkin et al.; Germ line p53 mutations in a familial syndrome of breast cancer, sarcomas and other neoplasms, Science 250(4985):1233-1238 (1990).
R. Wooster et al.; A germline mutation in the androgen receptor gene in two brothers with breast cancer and Reifenstein syndrome, Nat. Genet. 2(2):132-134 (1992).
M. Frohman et al.; Rapid amplification of full length cDNAs from rare transcripts: Amplification using a single gene-specific oligonucleotide primer, PNAS USA 85:8998-9002 (1988).
A. Beaudet et al.; A Suggested Nomenclature for Designating Mutations, Hum. Mutat. 2(4):245-248 (1993).
S. Thorlacius et al.; A Single BRCA2 Mutation in Male and Female Breast-Cancer Families from Iceland with Varied Cancer Phenotypes, Nature Genetics 13:117-119 (1996).
C. Phelan et al.; Mutation analysis of the BRCA2 Gene in 49 Site-Specific Breast Cancer Families, Nature Genetics 13:120-122 (1996).
A. Bowcock et al.; THRA1 and D17S183 Flank an Interval of <4 cM for the Breast-Ovarian Cancer Gene (BRCA1) on Chromosome 17q21, Am. J. Hum. Genet. 52:718-722 (1993).
Easton et al.; Genetic Linkage analysis in Familial Breast and Ovarian Cancer, Am. J. Hum. Genet. 52:718-722 (1993).
S. Gayther et al.; Germline Mutations of the Brca1 Gene in Breast and Ovarian-Cancer Families Provide Evidence for a Genotype-Phenotype Correlation, Nature Genetics 11:428-433 (1995).
J. Holt et al.; Growth-Retardation and Tumor-Inhibition by BRCA1, Nature Genetics 12:298-302 (1996).
S. Gayther et al.; Rapid Detection of Regionally Clustered Germ-Line BRCA1 Mutations by Multiplex Heteroduplex Analysis, Am. J. Human Gen. 58:451-456 (1996).
F. Couch et al.; BRCA1 Germline Mutations in Male Breast-Cancer Cases and Breast-Cancer Families, Nature Genetics 13:123-125 (1996).
S. Neuhausen et al.; Recurrent BRCA2 617delT Mutations in Ashkenazi Jewish Women Affected by Breast-Cancer, Nature Genetics 13:126-128 (1996).
L. Spirio et al.; Alleles of the APC gene: an attenuated form of familial polyposis, Cell 75:951-957 (1993).
S. Olschwang et al.; Restriction of ocular fundus lesions to a specific subgroup of APC mutations in adenomatous polyposis coli patients, Cell 75:959-968 (1993).
P. Bork et al.; Internal repeats in the BRCA2 protein sequence, Natue Genetics 13:22-23 (1996).
S. Cowley et al.; Activation of MAP Kinase Kinase Is Necessary and Sufficient for PC12 differentiation and for Transsformation of NIH 3T3 Cells, Cell 77:841-852 (1994).
R. Marais et al.; Ras recruits Raf-1 to the plasma membrane for activation by tyrosine phosphorylation, EMBO J. 14:3136-3145 (1995).
G. Hynes et al.; Peptide mass fingerprinting of chaperonin-containing TCP-1 (CCT) and copurifying proteins, FASEB J. 10:137-147 (1996).
D. Easton et al.; Genetic Linkage Analysis in Familial Breast and Ovarian Cancer: Results from 214 Families, Am. J. Hum. Genet. 52:678-701 (1993).
G. Cyapay et al.; The 1993-94 Genethon human genetic linkage map, Nature Genetics, 7:246-339 (1994).
M. Schutte et al.; An Integrated High-Resolution Physical Map of the DPC/BRCA2 Region at Chromosome 13q12, Cancer Res. 55:4570-4574 (1995).
C. Cohen et al.; A first-generation of physical map of the human genome, J. Nature 366:698-701 (1993).
P. Ioannou et al.; A new bacteriophage P1-derived vector for the propagation of large human DNA fragments, Nature Genetic 6:84-89 (1994).
M. Nehls et al.; Exon amplificatio from complete libraries of genomic DNA using a novel phage vector with automatic plasmid excision facility: application to the mouse neurofibromatosis-1 locus, Oncogene 9:2169-2175 (1994).
D. Tagle et al.; Magnetic bead capture of expressed sequences encoded within large genomic segments, Nature 361:751-753 (1993).
M. Stratton et al.; Familial male breast cancer is not linked to the BRCA1 locus on chromosome 17q, Nature Genetic 7:103-107 (1994).
P. Devilee et al.; Somatic genetic changes in human breast cancer, Biochim. Biophs. Acta 1198:113-130 (1994).
C. Lundberg et al.; Loss of heterozygosity in human ductal breast tumors indicates a recessive mutation on chromosome 13, Proc. Natl. Acad. Sci. USA 84:2372-2376 (1987).
A-M Cleton-Jansen et al.; Loss of heterozygosityin sporadic breast tumors at the BRCA2 locus on chromosome 13q12-q13, British J. of Cancer 72:1241-1244 (1995).
International Search Report for PCT/GB 96/02904.
Ashworth Alan
Futreal Phillip Andrew
Stratton Michael Rudolf
Wooster Richard Francis
Bansal Geetha P.
Cancer Research Campaign - Technology Limited
Duke University
Hutzell Paula K.
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