GM10114
Somatic cell hybrid
Description:
NIGMS MAPPING PANEL #2, VERSION 3, HUMAN/RODENT SOMATIC CELL HYBRIDS
NIGMS HUMAN/RODENT SOMATIC CELL HYBRID MAPPING PANEL #2 DNA
NIGMS HUMAN/RODENT SOMATIC CELL HYBRID MINI MAPPING PANEL #2 DNA
Repository
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NIGMS Human Genetic Cell Repository
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Subcollection |
Hybrids |
Cell Type
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Somatic cell hybrid
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Transformant
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Untransformed
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Confirmation
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Clinical summary/Case history
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ISCN
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Chinese hamster/human somatic cell hybrid retaining human chromosome #5
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Remarks
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IDENTIFICATION OF SPECIES OF ORIGIN |
Species of Origin Confirmed by Chromosome Analysis |
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GENE MAPPING & DOSAGE STUDIES - X CHROMOSOME |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for Xp22.32, STS, Xq13.3, PGK1, and Xq28, G6PD. |
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GENE MAPPING & DOSAGE STUDIES - Y CHROMOSOME |
PCR analysis of DNA from this somatic cell hybrid gave a negative result with a primer for Yq11, DYS227. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 1 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 1p13, NGFB, and 1q32, REN. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 2 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 2p13, TGFA, 2p23, POMC, and 2q13, IL1A PCR analysis of DNA from this somatic cell hybrid gave a negative result with a primer for 2q37, ALPP. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 3 |
DNA from this somatic cell hybrid gave negative results in Southern blot hybridization analyses with probes for 3p25, RAF1, and 3q26.2qter, TFRC. Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 3p22-p21.33, GLB1, and 3q26.2-q27, GLUT2. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 4 |
DNA from this somatic cell hybrid gave negative results in Southern blot hybridization analyses with probes for 4p16.2p15.1, D4S20, and 4q21q23, ADH3. Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 4p15.3, QDPR, and 4q11-q13, AFP. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 5 |
DNA from this somatic cell hybrid gave positive results in Southern blot hybridization analyses with probes for 5pterp15.3, D5S10, and 5q33q35, PDGFRB. Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave positive results with primers for 5p14-p12, C9, and 5q13.3-q14, HMGCR. PCR analysis of DNA from this somatic cell hybrid gave positive results with primers for 5p14-p12, C9, 5p15.3-p15.1, D5S208, 5q11.2q13.1, D5S351, 5q13.3-q14, HMGCR, 5q32, D5S372, and 5q34-q35, GABRA1. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 6 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 6p21.3, TNFA, and 6q24-q27, MAS1. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 7 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 7p12, EGFR, and 7q31.3, CFTR. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 8 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 8p21-p11.2, LHRH, 8p23-p22, DEF1, and 8q24, TG. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 9 |
DNA from this somatic cell hybrid gave negative results in Southern blot hybridization analyses with probes for 9q34, D9S7, & 9q34.1, ABL. Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 9p22, IFNA, and 9q22.3-q31, ALDOB. PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 9p21, D9S270, 9pter-p22, D9S178, and 9pter-q12, RLN1. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 10 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 10p11.2, ITGB1, and 10q24, PLAU. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 11 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 11p13, CAT, and 11q21-q22, CLG. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 12 |
DNA from this somatic cell hybrid gave a negative result in Southern blot hybridization analysis with a probe for 12q14q24.1, D12S7. Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 12p13.3-p13.2, F8VWF, and 12q22-q24.2, PAH. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 13 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave a negative result with a primer for 13q14.3, RB1. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 14 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 14q11.2, NP, and 14q32.1, PI. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 15 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave a negative result with a primer for 15q21-q22.2, B2M. PCR analysis of DNA from this somatic cell hybrid gave a negative result with a primer for 15q11.2-q12, GABRB3. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 16 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 16p13.3, HBA, 16q22.1, HPR, and 16q22.1, LCAT. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 17 |
DNA from this somatic cell hybrid gave a negative result in Southern blot hybridization analysis with a probe for 17p13.1, MYH2. Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 17p13.1, TP53, 17q, GAS, and 17q21.3-q23, MPO. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 18 |
DNA from this somatic cell hybrid gave a negative result in Southern blot hybridization analysis with a probe for 18q12.3, D18S6. Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave a negative result with a primer for 18p11.31-p11.22, TYMS. PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 18p11.1-q11.2, D18S44, and 18q12.1, TTR. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 19 |
DNA from this somatic cell hybrid gave negative results in Southern blot hybridization analyses with probes for 19p13.3p13.2, C3, and 19p13.1, D19S11. Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 19p13.2, LDLR, and 19q13.2, APOC2. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 20 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave negative results with primers for 20pter-p12, PRNP, and 20q12-q13.11, ADA. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 21 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave a negative result with a primer for 21q22.3, ITGB2. |
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GENE MAPPING & DOSAGE STUDIES - CHROMOSOME 22 |
Dubois & Naylor (Genomics 16:315-319,1993) reported that PCR analysis of DNA from this somatic cell hybrid gave a negative result with a primer for 22q11.2, IGLC2. |
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Remarks |
Line HHW105 produced by fusing CHO cells (UCW56) and human leukocytes; the hybrid was selected for having retained the human LARS gene on chromosome #5; grown in medium containing 0.2mM proline at 39C; 96% of cells retain human chromosome #5 |
Pironon N, Puechberty J, Roizès G, Molecular and evolutionary characteristics of the fraction of human alpha satellite DNA associated with CENP-A at the centromeres of chromosomes 1, 5, 19, and 21 BMC genomics11:195 2009 |
PubMed ID: 20331851 |
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Krona C, Ejeskär K, Carén H, Abel F, Sjöberg RM, Martinsson T, A novel 1p362 located gene, APITD1, with tumour-suppressive properties and a putative p53-binding domain, shows low expression in neuroblastoma tumours British journal of cancer91:1119-30 2004 |
PubMed ID: 15328517 |
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Mallet F, Bouton O, Prudhomme S, Cheynet V, Oriol G, Bonnaud B, Lucotte G, Duret L, Mandrand B, The endogenous retroviral locus ERVWE1 is a bona fide gene involved in hominoid placental physiology Proceedings of the National Academy of Sciences of the United States of America101:1731-6 2004 |
PubMed ID: 14757826 |
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Conte C, Ebeling M, Marcuz A, Nef P, Andres-Barquin PJ, Identification and characterization of human taste receptor genes belonging to the TAS2R family Cytogenetic and genome research98:45-53 2003 |
PubMed ID: 12584440 |
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Hansford LM, Smith SA, Haber M, Norris MD, Cheung B, Marshall GM, Cloning and characterization of the human neural cell adhesion molecule, CNTN4 (alias BIG-2) Cytogenetic and genome research101:17-23 2003 |
PubMed ID: 14571131 |
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Janssens B, Mohapatra B, Vatta M, Goossens S, Vanpoucke G, Kools P, Montoye T, van Hengel J, Bowles NE, van Roy F, Towbin JA, Assessment of the CTNNA3 gene encoding human alpha T-catenin regarding its involvement in dilated cardiomyopathy Human genetics112:227-36 2003 |
PubMed ID: 12596047 |
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Tarafa G, Prat E, Risques RA, González S, Camps J, Grau M, Guinó E, Moreno V, Esteller M, Herman JG, Germà JR, Miró R, Peinado MA, Capellá G, Common genetic evolutionary pathways in familial adenomatous polyposis tumors Cancer research63:5731-7 2003 |
PubMed ID: 14522893 |
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Anderson MJ, Viars CS, Czekay S, Cavenee WK, Arden KC, Cloning and characterization of three human forkhead genes that comprise an FKHR-like gene subfamily. Genomics47:187-99 1998 |
PubMed ID: 9479491 |
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Katsanis N, Fisher EM, A novel C-terminal binding protein (CTBP2) is closely related to CTBP1, an adenovirus E1A-binding protein, and maps to human chromosome 21q21.3. Genomics47:294-9 1998 |
PubMed ID: 9479502 |
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Fam NP, Zhang LJ, Rommens JM, Beatty BG, Moran MF, Mapping of the Ras-GRF2 gene (GRF2) to mouse chromosome 13C3-D1 and human chromosome 5q13, near the Ras-GAP gene. Genomics39:118-20 1997 |
PubMed ID: 9027497 |
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Jones MH, Zhang Y, Tirosvoutis KN, Davey PM, Webster AR, Walsh D, Spurr NK, Affara NA, Chromosomal assignment of 311 sequences transcribed in human adult testis. Genomics40:155-67 1997 |
PubMed ID: 9070934 |
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Liang Y, Chen H, Asher JH Jr, Chang CC, Friedman TB, Human inner ear OCP2 cDNA maps to 5q22-5q35.2 with related sequences on chromosomes 4p16.2-4p14, 5p13-5q22, 7pter-q22, 10 and 12p13-12qter. Gene184:163-7 1997 |
PubMed ID: 9031623 |
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McCusker D, Jones T, Sheer D, Trowsdale J, Genetic relationships of the genes encoding the human proteasome beta subunits and the proteasome PA28 complex. Genomics45:362-7 1997 |
PubMed ID: 9344661 |
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Permana PA, Mott DM, Genetic analysis of human type 1 protein phosphatase inhibitor 2 in insulin-resistant Pima Indians. Genomics41:110-4 1997 |
PubMed ID: 9126490 |
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Schwarz H, Arden K, Lotz M, CD137, a member of the tumor necrosis factor receptor family, is located on chromosome 1p36, in a cluster of related genes, and colocalizes with several malignancies Biochemical and biophysical research communications235:699-703 1997 |
PubMed ID: 9207223 |
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Cerretti DP, Copeland NG, Gilbert DJ, Jenkins NA, Kuefer MU, Valentine V, Shapiro DN, Cui X, Morris SW, The gene encoding LERK-7 (EPLG7, Epl7), a ligand for the Eph-related receptor tyrosine kinases, maps to human chromosome 5 at band q21 and to mouse chromosome 17. Genomics35:376-9 1996 |
PubMed ID: 8661153 |
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Finelli P, Antonacci R, Marzella R, Lonoce A, Archidiacono N, Rocchi M, Structural organization of multiple alphoid subsets coexisting on human chromosomes 1, 4, 5, 7, 9, 15, 18, and 19. Genomics38:325-30 1996 |
PubMed ID: 8975709 |
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Hirai M, Kusuda J, Hashimoto K, Assignment of human ADP ribosylation factor (ARF) genes ARF1 and ARF3 to chromosomes 1q42 and 12q13, respectively. Genomics34(2):263-5 1996 |
PubMed ID: 8661066 |
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Kostrzewa M, Grady DL, Moyzis RK, Floter L, Muller U, Integration of four genes, a pseudogene, thirty-one STSs, and a highly polymorphic STRP into the 7-10 Mb YAC contig of 5q34-q35. Hum Genet97:399-403 1996 |
PubMed ID: 8786091 |
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Kostrzewa M, Kohler A, Eppelt K, Hellam L, Fairweather ND, Levy ER, Monaco AP, Muller U, Assignment of genes encoding GABAA receptor subunits alpha 1, alpha 6, beta 2, and gamma 2 to a YAC contig of 5q33. Eur J Hum Genet4:199-204 1996 |
PubMed ID: 8875185 |
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McCombie RR, Dolphin CT, Povey S, Phillips IR, Shephard EA, Localization of human flavin-containing monooxygenase genes FMO2 and FMO5 to chromosome 1q. Genomics34:426-9 1996 |
PubMed ID: 8786146 |
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Kelsell DP, Rooke L, Warne D, Bouzyk M, Cullin L, Cox S, West L, Povey S, Spurr NK, Development of a panel of monochromosomal somatic cell hybrids for rapid gene mapping Annals of human genetics59:233-41 1995 |
PubMed ID: 7625768 |
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Kermouni A, Van Roost E, Arden KC, Vermeesch JR, Weiss S, Godelaine D, Flint J, Lurquin C, Szikora JP, Higgs DR, The IL-9 receptor gene (IL9R): genomic structure, chromosomal localization in the pseudoautosomal region of the long arm of the sex chromosomes, and identification of IL9R pseudogenes at 9qter, 10pter, 16pter, and 18pter Genomics29:371-82 1995 |
PubMed ID: 8666384 |
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Saito M, Helin K, Valentine MB, Griffith BB, Willman CL, Harlow E, Look AT, Amplification of the E2F1 transcription factor gene in the HEL erythroleukemia cell line. Genomics25:130-8 1995 |
PubMed ID: 7774910 |
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Chang DY, Nelson B, Bilyeu T, Hsu K, Darlington GJ, Maraia RJ, A human Alu RNA-binding protein whose expression is associated with accumulation of small cytoplasmic Alu RNA. Mol Cell Biol14:3949-59 1994 |
PubMed ID: 8196634 |
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DiDonato CJ, Morgan K, Carpten JD, Fuerst P, Ingraham SE, Prescott G, McPherson JD, Wirth B, Zerres K, Hurko O, et al, Association between Ag1-CA alleles and severity of autosomal recessive proximal spinal muscular atrophy. Am J Hum Genet55:1218-29 1994 |
PubMed ID: 7977383 |
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Driscoll CT, Darlington GJ, Maraia RJ, The conserved 7SK snRNA gene localizes to human chromosome 6 by homolog
exclusion probing of somatic cell hybrid RNA. Nucleic Acids Res22(5):722-5 1994 |
PubMed ID: 8139910 |
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Hendershot LM, Valentine VA, Lee AS, Morris SW, Shapiro DN, Localization of the gene encoding human BiP/GRP78, the endoplasmic reticulum cognate of the HSP70 family, to chromosome 9q34. Genomics20:281-4 1994 |
PubMed ID: 8020977 |
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Maraia RJ, Sasaki-Tozawa N, Driscoll CT, Green ED, Darlington GJ, The human Y4 small cytoplasmic RNA gene is controlled by upstream elements and resides on chromosome 7 with all other hY scRNA genes Nucleic acids research22:3045-52 1994 |
PubMed ID: 7520568 |
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McPherson JD, Morton RA, Ewing CM, Wasmuth JJ, Overhauser J, Nagafuchi A, Tsukita S, Isaacs WB, Assignment of the human alpha-catenin gene (CTNNA1) to chromosome 5q21- q22. Genomics19:188-90 1994 |
PubMed ID: 8188230 |
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Nagarajan L, Zavadil J, Claxton D, Lu X, Fairman J, Warrington JA, Wasmuth JJ, Chinault AC, Sever CE, Slovak ML, et al, Consistent loss of the D5S89 locus mapping telomeric to the interleukin gene cluster and centromeric to EGR-1 in patients with 5q- chromosome. Blood83:199-208 1994 |
PubMed ID: 8274735 |
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Chong SS, Kristjansson K, Zoghbi HY, Hughes MR, Molecular cloning of the cDNA encoding a human renal sodium phosphate transport protein and its assignment to chromosome 6p21.3-p23. Genomics18:355-359 1993 |
PubMed ID: 8288239 |
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Drwinga HL, Toji LH, Kim CH, Greene AE, Mulivor RA, NIGMS human/rodent somatic cell hybrid mapping panels 1 and 2. Genomics16:311-4 1993 |
PubMed ID: 8314568 |
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Figlewicz DA, Delattre O, Guellaen G, Krizus A, Thomas G, Zucman J, Rouleau GA, Mapping of human gamma-glutamyl transpeptidase genes on chromosome 22 and other human autosomes. Genomics17:299-305 1993 |
PubMed ID: 8104871 |
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Howe JR, Lairmore TC, Veile R, Dou S, Wells SA Jr, Donis-Keller H, Development of a sequence-tagged site for the centromere of chromosome 10: its use in cytogenetic and physical mapping. Hum Genet91:199-204 1993 |
PubMed ID: 8478002 |
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Maraia RJ, Driscoll CT, Bilyeu T, Hsu K, Darlington GJ, Multiple dispersed loci produce small cytoplasmic Alu RNA. Mol Cell Biol13:4233-41 1993 |
PubMed ID: 7686619 |
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Morris SW, Valentine MB, Kirstein MN, Huebner K, Reassignment of the human ARH9 RAS-related gene to chromosome 1p13-p21. Genomics15:677-9 1993 |
PubMed ID: 8468062 |
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Washington SS, Bowcock AM, Gerken S, Matsunami N, Lesh D, Osborne-Lawrence SL, Cowell J, Ledbetter DH, White RL, Chakravarti A, A somatic cell hybrid map of human chromosome 13. Genomics18:486-95 1993 |
PubMed ID: 8307557 |
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Hendricks-Taylor LR, Bachinski LL, Siciliano MJ, Fertitta A, Trask B, de Jong PJ, Ledbetter DH, Darlington GJ, The CCAAT/enhancer binding protein (C/EBP alpha) gene (CEBPA) maps to human chromosome 19q13.1 and the related nuclear factor NF-IL6 (C/EBP beta) gene (CEBPB) maps to human chromosome 20q13.1. Genomics14:12-7 1992 |
PubMed ID: 1427819 |
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Morris SW, Nelson N, Valentine MB, Shapiro DN, Look AT, Kozlosky CJ, Beckmann MP, Cerretti DP, Assignment of the genes encoding human interleukin-8 receptor types 1 and 2 and an interleukin-8 receptor pseudogene to chromosome 2q35. Genomics14:685-91 1992 |
PubMed ID: 1427896 |
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Green ED, Mohr RM, Idol JR, Jones M, Buckingham JM, Deaven LL, Moyzis RK, Olson MV, Systematic generation of sequence-tagged sites for physical mapping of human chromosomes: application to the mapping of human chromosome 7 using yeast artificial chromosomes. Genomics11:548-64 1991 |
PubMed ID: 1837788 |
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Ledbetter SA, Garcia-Heras J, Ledbetter DH, "PCR-karyotype" of human chromosomes in somatic cell hybrids. Genomics8:614-22 1990 |
PubMed ID: 2276735 |
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Carlock LR, Skarecky D, Dana SL, Wasmuth JJ, Deletion mapping of human chromosome 5 using chromosome-specific DNA probes. Am J Hum Genet37:839-52 1985 |
PubMed ID: 2996334 |
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Dana S, Wasmuth JJ, Linkage of the leuS, emtB, and chr genes on chromosome 5 in humans and expression of human genes encoding protein synthetic components in human--Chinese hamster hybrids. Somatic Cell Genet8:245-64 1982 |
PubMed ID: 9732752 |
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Wasmuth JJ, Chu LY, Linkage in cultured Chinese hamster cells of two genes, emtB and leuS, involved in protein synthesis and isolation of cell lines with mutations in three linked genes. J Cell Biol87:697-702 1980 |
PubMed ID: 7193212 |
Split Ratio |
1:5 |
Temperature |
39 C |
Percent CO2 |
8% |
Medium |
Dulbecco Modified Eagles Medium (high glucose) with 2mM L-glutamine or equivalent |
Serum |
10% fetal bovine serum Not inactivated |
Substrate |
None specified |
Subcultivation Method |
trypsin-EDTA |
Supplement |
Proline 0.2 mM |
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