Advertisement

Mammalian Genome

, Volume 1, Supplement 1, pp S51–S78 | Cite as

Mouse chromosome 4

  • Robert Blank
  • Janan Eppig
  • Fred T. FiedorekJr.
  • Wayne N. Frankel
  • Jeffrey M. Friedman
  • Konrad Huppi
  • Ian Jackson
  • Beverly Mock
Article

Keywords

Mouse Chromosome 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

References

  1. Abbott, C., Jackson, I.J., Carritt, B., and Povey, S.: The human homolog of the mousebrown gene maps to the short arm of chromosome 9 and extends the known region of homology with mouse Chr 4.Genomics 11: in press, 1991.Google Scholar
  2. Adler, I.D. and Neuhauser-Klaus, A.: Seventeen stocks of mice with reciprocal or Robertsonian translocations.Mouse News Lett 77: 139–142, 1987.Google Scholar
  3. Adolph, S. and Klein, J.: Robertsonian variation inMus musculus from Central Europe, Spain and Scotland.J Hered 72: 219–221, 1981.Google Scholar
  4. Adra, C.N., Ellis, N.A., and McBurney, M.W.: The family of mouse phosphoglycerate kinase genes and pseudogenes.Som Cell Mol Genet 14: 69–81, 1988.Google Scholar
  5. Ashley, T.: G-band position effect on meiotic synapsis and crossing over.Genetics 118: 307–317, 1988.Google Scholar
  6. Bahary, N., Leibel, R.L., Joseph, L., and Friedman, J.M.: Molecular mapping of the mousedb mutation.Proc Natl Acad Sci USA 87: 8642–8646, 1990.Google Scholar
  7. Bahary, N., Zorich, G., Pachter, J.E., Leibel, R.L., and Friedman, J.M.: Molecular genetic linkage maps of mouse chromosomes 4 and 6.Genomics, in press, 1991.Google Scholar
  8. Bailey, D.W.: Genetics of histocompatibility in mice. I. New loci and congenic lines.Immunogenetics 2: 249–256, 1975.Google Scholar
  9. Bailey, D.W.: Recombinant inbred strains. An aid to finding identity, linkage, and function of histocompatibility and other genes.Transplantation 11: 325–327, 1971.Google Scholar
  10. Baumann, H. and Berger, F.G.: Genetics and evolution of the acute phase proteins in mice.Mol Gen Genet 201: 505, 1985.Google Scholar
  11. Baumann, H., Held, W.A., and Berger, F.G.: The acute phase response of mouse liver. Genetic analysis of the major acute phase reactants.J Biol Chem 259: 566, 1984.Google Scholar
  12. Beechey, C.V., Burtenshaw, M.D., and Evans, E.P.: Linkage tests with T45H and chromosome 9 markers.Mouse News Lett 80: 159, 1988.Google Scholar
  13. Beechey, C.V. and Searle, A.G.: T(4;9)45H.Mouse News Lett 78: 50–51, 1987.Google Scholar
  14. Beermann, F., Bartels, I., Franke, U., and Hansmann, I.: Chromosome segregation at meiosis I in female T(2;4)1Go/ + mice: No evidence for a decreased crossover frequency with maternal age.Chromosoma 95: 1–7, 1987.Google Scholar
  15. Begley, C.G., Visvader, J., Green, A.R., Aplan, P.D., Metcalf, D., Kirsch, I.R., and Gough, N.M.: Molecular cloning and chromosomal localization of the murine homolog of the human helix-loophelix geneSCL.Proc Natl Acad Sci USA 88: 869–873, 1991.Google Scholar
  16. Bennett, K.L., Lalley, P.A., Barth, R.K., and Hastie, N.D.: Mapping the structural genes coding for the major urinary proteins in the mouse: Combined use of recombinant inbred strains and somatic cell hybrids.Proc Natl Acad Sci USA 79: 1220–1224, 1982.Google Scholar
  17. Blatt, C., Mileham, K., Haas, M., Nesbitt, M.N., Harper, M.E., and Simon, M.I.: Chromosomal mapping of the mink cell focusinducing and xenotropicenv gene family in the mouse.Proc Natl Acad Sci USA 80: 6298–6302, 1983.Google Scholar
  18. Britton-Davidian J.:Mouse News Lett 74: 100, 1986.Google Scholar
  19. Cahilly, L.A., George, D., Daugherty, B.L., and Pestka, S.: Subchromosomal localization of mouse IFN-α genes by in situ hybridization.J Interferon Res 5: 391–395, 1985.Google Scholar
  20. Campbell, G.R., Zimmerman, K., Blank, R.D., Alt, F.W., and D'Eustachio, P.: Chromosomal location of N-myc and L-myc genes in the mouse.Oncogene Res 4: 47–54, 1989.Google Scholar
  21. Capanna, E., Cristaldi, M., Perticone, P., and Rizone, M.: Identification of chromosomes involved in the 9 Robertsonian fusions of the Apennine mouse with a 22-chromosome karyotype.Experientia 31: 294–296, 1975.Google Scholar
  22. Capanna, E., Gropp, A., Winking, H., Noack, G., and Civitelli, M.V.: Robertsonian metacentrics in the mouse.Chromosoma 58: 341–353, 1976.Google Scholar
  23. Cattanach, B.M., Rasberry, C., and Evans, E.P.: T(4;5)46H.Mouse News Lett 78: 51, 1987.Google Scholar
  24. Cattanach, B.M.: Crossover suppression in mice heterozygous for tobacco mouse metacentrics.Cytogenet Cell Genet 20: 264–281, 1978.Google Scholar
  25. Cattanach, B.M. and Moseley, H.J.: Crossover suppression in heterozygotes for tobacco mouse metacentric chromosomes.Mouse News Lett 50: 41–42, 1974.Google Scholar
  26. Ceci, J.D., Siracusa, L.D., Jenkins, N.A., and Copeland, N.G.: A molecular genetic linkage map of mouse Chr 4 including the localization of several proto-oncogenes.Genomics 5: 699–709, 1989.Google Scholar
  27. Chapman, V.M., Ruddle, F.H., and Roderick, T.H.: Linkage of isozyme loci in the mouse: Phosphoglucomutase-2 (Pgm-2), mitochondrial NADP malate dehydrogenase (Mod-2), and dipeptidase-1 (Dip-1).Biochem Genet 5: 101–110, 1971.Google Scholar
  28. Chapman, V.M.: 6-Phosphogluconate dehydrogenase (PGD) genetics in the mouse: linkage with metabolically related enzyme loci.Biochem Genet 13: 849–856, 1975.Google Scholar
  29. Chapman, V.M.: Gene orderPgm-2-Pgd-Gpd.Mouse News Lett 50: 58, 1974.Google Scholar
  30. Cheng, Z.Y., Lovett, M., Epstein, L.B., and Epstein, C.J.: The mouse IFN-α (Ifa) locus: Correlation of physical and linkage maps by in situ hybridization.Cytogenet Cell Genet 41: 101–106, 1986.Google Scholar
  31. Cho, M., Villani, V., and D'Eustachio, P.: A linkage map of distal mouse Chromosome 12.Mammalian Genome 1: 30–36, 1991.Google Scholar
  32. Collins, R.L. and Hutton, J.J.: The position of autosomal glucose 6 phosphate dehydrogenase on linkage group VIII of the mouse.J Hered 61: 53–54, 1970.Google Scholar
  33. Collins, R.L.: A new genetic locus mapped from behavioral variation in mice: Audiogenic seizure prone (asp).Behav Genet 1: 99–109, 1970.Google Scholar
  34. Coutinho, A. and Meo, T.: Genetic basis for unresponsiveness to lipopolysaccharide in C57BL/10Cr mice.Immunogenetics 7: 17–24, 1978.Google Scholar
  35. Danciger, M., Farber, D.B., Peyser, M., and Kozak, C.A.: The gene for the β-subunit of retinal transducin (Gnb-1) maps to distal mouse Chr 4, and related sequences map to mouse Chromosomes 5 and 8.Genomics 6: 428–435, 1990.Google Scholar
  36. Dandoy, F., DeMaeyer, E., Bonhomme, F., Guenet, J.-L., and De-Maeyer-Guignard, J.: Segregation of restriction fragment length polymorphism in an interspecies cross of laboratory and wild mice indicates tight linkage of the murine IFN-β gene to the murine IFN-α genes.J Virol 56: 216–220, 1985.Google Scholar
  37. Dandoy, F., DeMaeyer-Guignard, J., and DeMaeyer, E.: Linkage analysis of the murinemos proto-oncogene on Chr 4.Genomics 4: 546–551, 1989.Google Scholar
  38. Dandoy, F., Kelley, K.A., DeMaeyer-Guignard, J., DeMaeyer, E., and Pitha, P.M.: Linkage analysis of the murine interferon-α locus on Chr 4.J Exp Med 160: 294–302, 1984.Google Scholar
  39. Datta, S.K., Owen, F.L., Womack, J.E., and Riblet, R.J.: Analysis of recombinant inbred lines derived from “autoimmune” (NZB) and “high leukemia” (C58) strains: Independent multigenic systems control B cell hyperactivity, retrovirus expression, and autoimmunity.J Immunol 129: 1539–1544, 1982.Google Scholar
  40. Davisson, M.T. and Roderick, T.H.:Mouse News Lett 58: 48, 1978.Google Scholar
  41. Davisson, M.T.: Cytogenetic mapping of the breakpoints of T(3;4)5Rk.Mouse News Lett 73: 19, 1985.Google Scholar
  42. Davisson, M.T.: Linkage with T(3;4)5Rk.Mouse News Lett 63: 19–20, 1980.Google Scholar
  43. Davisson, M.T.: New chromosome aberrations.Mouse News Lett 80: 166, 1988.Google Scholar
  44. DeMaeyer, E. and Dandoy, F.: Linkage analysis of the murine interferon α locus (Ifα) on Chr 4.J Hered 78: 143–146, 1987.Google Scholar
  45. Eicher, E.M. and Fox, S.: Repeated epilation located on Chr 4.Mouse News Lett 58: 50, 1978.Google Scholar
  46. Eicher, E.M. and Lee, B.K.: The NXSM recombinant inbred strains of mice: Genetic profile for 58 loci including theMtv proviral loci.Genetics 125: 431–446, 1990.Google Scholar
  47. Eicher, E.M., Reynolds, S., and Southard, J.L.: Linkage ofGot-1 and ofje.Mouse News Lett 56: 42, 1976.Google Scholar
  48. Eleftheriou, B.E. and Kristal, M.B.: A gene controlling bell- and photically-induced ovulation in mice.J Reprod Fertil 38: 41–47, 1974.Google Scholar
  49. Elliott, R.W. and Yen, C.-H.: DNA variants with telomere probe enable genetic mapping of ends of mouse chromosomes.Mammalian Genome 1: 118–122, 1991.Google Scholar
  50. Evans, E.P., Beechey, C.V., and Searle, A.G.: Male-sterile translocations.Mouse News Lett 57: 17, 1977.Google Scholar
  51. Evans, E.P. and Burtenshaw, M.: T(2;4)1Sn. Revised banding breakpoints.Mouse News Lett 81: 66, 1988.Google Scholar
  52. Ferguson, J.M. and Wallace, M.E.:cy linkage.Mouse News Lett 52: 31, 1975.Google Scholar
  53. Finlayson, J.S., Hudson, D.M., and Armstrong, B.L.: Location of theMup-a locus on mouse linkage group VIII.Genet Res 14: 329–331, 1969.Google Scholar
  54. Fletcher, C., Norman, D.J., and Heintz, N.: Genetic mapping of meander tail, a mouse mutation affecting cerebellar development.Genomics 9: 647–655, 1991.Google Scholar
  55. Fox, S., Eicher, E.M., and Reynolds, S.: Head bleds (heb) on Chr 4.Mouse News Lett 57: 21, 1977.Google Scholar
  56. Fox, S., Reynolds, S., and Eicher, E.M.: Er—Gpd-1 linkage.Mouse News Lett 57: 21, 1977.Google Scholar
  57. Frankel, W.N., Stoye, J.P., Taylor, B.A., and Coffin, J.M.: A linkage map of endogenous murine leukemia proviruses.Genetics 124: 221–236, 1990.Google Scholar
  58. Frankel, W.N., Stoye, J.P., Taylor, B.A., and Coffin, J.M.: Genetic analysis of endogenous xenotropic murine leukemia viruses: Association with two common mouse mutations and viral restriction locusFv-1.J Virol 63: 1763–1774, 1989.Google Scholar
  59. Frankel, W.N., Stoye, J.P., Taylor, B.A., and Coffin, J.M.: Genetic identification of endogenous polytropic proviruses by using recombinant inbred mice.J Virol 63: 3810–3821, 1989.Google Scholar
  60. Fultz, M.J., and Vogel, S.N.: The physical separation ofLps andIfα loci in BXH recombinant inbred mice.J Immunol 143: 3001–3006, 1989.Google Scholar
  61. Gonez, L.J., Sandrin, K.S., Henning, M.M., Hilgers, J., and McKenzie, I.F.C.:Ly-29: A locus closely linked toMtv-20 on Chr 4 codes for a new mouse lymphocyte surface alloantigen.Immunogenetics 22: 305–308, 1985.Google Scholar
  62. Green, M.C., Sidman, R.L., and Pivetta, O.H.: Cribriform degeneration (cri): A new recessive neurological mutation in the mouse.Science 176: 800–803, 1972.Google Scholar
  63. Green, M.C.: Cribriform degeneration (cri).Mouse News Lett 47: 37, 1972.Google Scholar
  64. Gropp, A., Tettenborn, U., and Lehmann, E. von: Chromosomen-variationen vom Robertson'schen Typus bei der Tabakmaus, M. poschiavins, und ihren Hybriden mit der Laboratoriumsmaus.Cytogenetics 9: 9–23, 1970.Google Scholar
  65. Gropp, A., Winking, H., Zech, L., and Muller, H.: Robertsonian chromosomal variation and identification of metacentric chromosomes in feral mice.Chromosoma 39: 265–288, 1972.Google Scholar
  66. Gropp, A.: Robertsonian fusion metacentrics.Mouse News Lett 57: 26–28, 1977.Google Scholar
  67. Guenet, J.-L., Salzgeber, B., and Tassin, M.T.: Repeated epilation: A genetic epidermal syndrome in mice.J Hered 70: 90–94, 1979.Google Scholar
  68. Hayes, C.E., Klyczek, K.K., Krum, D.P., Whitcomb, R.M., Hullett, D.A., and Cantor, H.: Chr 4Jt gene controls murine T cell surface I-J expression.Science 223: 559–563, 1984.Google Scholar
  69. Hearne, C.M., McAleer, M.A., Love, J.M., Aitman, T.J., Cornall, R.J., Ghosh, S., Knight, A.M., Prins, J-B., and Todd, J.A.: Additional microsatellite markers for mouse genome mapping.Mammalian Genome 1: 273–282, 1991.Google Scholar
  70. Hsieh, C.-L., Donon, T.A., Darras, B.T., Chang, D.D., Topper, I.N., Clayton, D.A., and Francke, U.: The gene for the cRNA component of the mitochondrial RNA-processing endoribonuclease is located on human chromosome 9p and on mouse Chr 4.Genomics 6: 540–544, 1990.Google Scholar
  71. Hertwig, P.: Neue Mutationen und Koppelungs-gruppen bei der Hausmaus.Zeit ind Abst Vererb 80: 220–246, 1942.Google Scholar
  72. Hollander, W.F. and Strong, L.C.: Pintail, a dominant mutation linked withbrown in the house mouse.J Hered 42: 179–182, 1951.Google Scholar
  73. Hollander, W.F. and Waggie, K.S.: Meander tail: A recessive mutant located in Chr 4 of the mouse.J Hered 68: 403–406, 1977.Google Scholar
  74. Hollander, W.F.: Genetic spina bifida occulta in the mouse.Am J Anat 146: 173–180, 1976.Google Scholar
  75. Holmes, R.S. and Timms, G.: Mitochondrial aldehyde dehydrogenase—positioning ofAhd-1 on Chr 4.Mouse News Lett 61: 35, 1979.Google Scholar
  76. Holmes, R.S. and Timms, G.P.: Mouse aldehyde dehydrogenase genetics: Positioning ofAhd-1 on Chr 4.Anim Blood Groups Biochem Genet 12: 1–5, 1981.Google Scholar
  77. Holmes, R.S.: Genetics and ontogeny of aldehyde dehydrogenase isozymes in the mouse: Localization ofAhd-1 encoding the mitochondrial isozyme on Chr 4.Biochem Genet 16: 1207–1218, 1978.Google Scholar
  78. Howe, R.C., Ahmed, A., Faldetta, T.J., Byrnes, J.E., Rogan, K.M., Taylor, B.A., and Humphreys, R.E.: Mapping of theLyb-4 gene to different chromosomes in DBA/2J and C3H/HeJ mice.Immunogenetics 9: 221–232, 1979.Google Scholar
  79. Hubner, R.: Populations Robertsoniennes chez la souris ‘sauvage’ en Belgique.Ann Soc R Zool Belg 118: 69–75, 1988.Google Scholar
  80. Hummel, K.P. and Chapman, D.B.: Location of diabetes (db) in Linkage Group VIII.Mouse News Lett 42: 29, 1970.Google Scholar
  81. Huppi, K., Mock, B.A., Schricker, P., D'Hoostelaere, L.A., and Potter, M.: Organization of the distal end of mouse Chr 4.Curr Topics Microbiol Immunol 137: 276–288, 1988.Google Scholar
  82. Hutton, J.J. and Coleman, D.L.: Linkage analysis using biochemical variants in mice. II. Levulinate dehydratase and autosomal glucose-6-phosphate dehydrogenase.Biochem Genet 3: 517–523, 1969.Google Scholar
  83. Hutton, J.J. and Roderick, T.H.: Linkage analyses using biochemical variants in mice. III. Linkage relationships of eleven biochemical markers.Biochem Genet 4: 339–350, 1970.Google Scholar
  84. Jackson, I.J.: A cDNA encoding tyrosinase-related protein maps to thebrown locus in mice.Proc Natl Acad Sci USA 85: 4392–4396, 1988.Google Scholar
  85. Jeffreys, A.J., Wilson, V., Kelly, R., Taylor, B.A., and Bulfield, G.: Mouse DNA “fingerprints”. Analysis of chromosome localization and germ-line stability of hypervariable loci in recombinant inbred strains.Nucl Acids Res 15: 2823–2836, 1987.Google Scholar
  86. Johnson, D.R. and Wallace, M.E.: Crinkly-tail, a mild skeletal mutant in the mouse.J Embryol Exp Morphol 53: 327–333, 1979.Google Scholar
  87. Johnson, D.R.: Polysyndactyly, a new mutant gene in the mouse.J Embryol Exp Morphol 21: 285–294, 1969.Google Scholar
  88. Kelly, E.M.: Dominant reduced ear, E.Mouse News Lett 38: 31, 1968.Google Scholar
  89. Kelly, R., Bulfield, G., Collick, A., Gibbs, M., and Jeffreys, A.J.: Characterization of a highly unstable mouse minisatellite locus: Evidence for a somatic mutation during early development.Genomics 5: 844–856, 1989.Google Scholar
  90. Kiel-Metzger, K. and Erickson, R.P.: Regional localization of sexspecificBkm-related sequences on proximal chromosome 17 of mice.Nature 310: 579–581, 1984.Google Scholar
  91. Knight, J.G. and Adams, D.D.: Genes determining autoimmune disease in New Zealand mice.J Clin Lab Immunol 5: 165–170, 1981.Google Scholar
  92. Lane, P.W.: Achondroplasia (cn).Mouse News Lett 49: 33, 1973.Google Scholar
  93. Lane, P.W.: Hair patches.Mouse News Lett 65: 27, 1981.Google Scholar
  94. Lane, P.W.: Hairpatches (Hpt).Mouse News Lett 68: 72, 1983.Google Scholar
  95. Lane, P.W.: New allele of diabetes.Mouse News Lett 38: 24, 1968.Google Scholar
  96. Lane, P.W.: Whirler mice, a recessive behavior mutation in linkage group VIII.J Hered 54: 263–266, 1963.Google Scholar
  97. Lee, B.K. and Eicher, E.M.: Segregation patterns of endogenous mouse mammary tumor viruses in five recombinant inbred strain sets.J Virol 64: 4568–4572, 1990.Google Scholar
  98. Lyon, M.F. and Jarvis.: Further new Robertsonian translocations. (b).Mouse News Lett 60: 44, 1979.Google Scholar
  99. Marth, J.D., Disteche, C., Pravtcheva, D., Ruddle, F., Krebs, E.G., and Perlmutter, R.M.: Localization of a lymphocytespecific protein tyrosine kinase gene (Lck) at a site of frequent chromosomal abnormalities in human lymphomas.Proc Natl Acad Sci USA 83: 7400–7404, 1986.Google Scholar
  100. Mattei, M.G., Simon-Chazottes, D., Hirai, S.-I., Ryseck, R.P., Galcheva-Gargova, Z., Guénet, J.-L., Mattei, J.F., Bravo, R., and Yaniv, M.: Chromosomal localization of the three members of thejun proto-oncogene family in mouse and man.Oncogene 5: 151–156, 1990.Google Scholar
  101. Mattei, M.-G., Galloni, M., Sardet, C., Franchi, A., Counillon, L., Passage, E., and Pouyssegur, J.: Abstract: Localization of the antiporter gene (APNH) and chromosomal homology between human 1p, mouse 4 and Chinese hamster 2q.Cytogenet Cell Genet 51: 1041, 1989.Google Scholar
  102. Mayer, T.C., Kleiman, N.J., and Green, M.C.: Depilated (dep), a mutant gene that effects the coat of the mouse and acts in the epidermis.Genetics 84: 59–65, 1976.Google Scholar
  103. McFarland, E.: LinkagePt, b, an; Chr 4. Personal communication. 1965.Google Scholar
  104. Meistrich, M.L. and Trostle-Weige, P.K.:Azh. Mouse News Lett 1989.Google Scholar
  105. Meredith, R.: Pupoid in linkage group VIII.Mouse News Lett 32: 39, 1965.Google Scholar
  106. Meruelo, D., Offer, M., and Flieger, N.: A new lymphocyte cell surface antigen,Ly-22.2, controlled by a locus on Chr 4 and a second unlinked locus.J Immunol 130: 946–950, 1983.Google Scholar
  107. Michalides, R. and Hilgers, J.:Mouse News Lett 70: 63–64, 1984.Google Scholar
  108. Michalides, R., Verstraeten, R., Shen, F.W., and Hilgers, J.: Characterization and chromosomal distribution of endogenous mouse mammary tumor viruses of European mouse strains STS/A and GR/A.Virology 142: 278–290, 1985.Google Scholar
  109. Morse, H.C., III, Chused, T.M., Hartley, J.W., Mathieson, B.J., Sharrow, S.O., and Taylor, B.A.: Expression of xenotropic murine leukemia virus cell surfacegp70 in genetic crosses between strains DBA/2 and C57BL/6.J Exp Med 149: 1183–1196, 1979.Google Scholar
  110. Mullins, J.J., Zeng, Q., and Gross, K.W.: Mapping of the mouseAnf gene.Hypertension 9: 518–521, 1987.Google Scholar
  111. Nadeau, J.H., Berger, F.G., Kelley, K.A., Pitha, P.M., Sidman, C.L., and Worrall, N.: Rearrangement of genes located on homologous chromosomal segments in mouse and man. The location of genes for α- and β-interferon, α-1 acid glycoprotein-1 and-2, and aminolevulinate dehydratase on mouse Chr 4.Genetics 114: 1239–1255, 1986.Google Scholar
  112. Nadeau, J.H. and Eicher, E.M.: Conserved linkage of soluble aconitase and galactose-1-phosphate uridyl transferase in mouse and man: Assignment of these genes to mouse Chr 4.Cytogenet Cell Genet 34: 271–281, 1982.Google Scholar
  113. Nadeau, J.H.: Length of the chromosomal segment marked by galactose-1-phosphate uridyl transferase and soluble aconitase and conversed since divergence of lineages leading to mouse and man.Genet Res 52: 141–144, 1988.Google Scholar
  114. Nakamura, S., Ikegami, S., Dairiki, K., Kochiya, M., Fujimori, T., Tamaoki, N., and Tada, N.: Biochemical similarity ofLy-19, Ly-32, andLyb-2 alloantigens encoded in the gene cluster on mouse Chr 4.Immunogenetics 28: 314–319, 1988.Google Scholar
  115. Nesbitt, M., Pugh, S.L., and Paigen, B.: Strain distribution pattern of thirteen genetic loci in the AXB and BXA recombinant inbred set.Mouse Genome 88: 113, 1990.Google Scholar
  116. Neumann, P.E., Mueller, G.G., and Sidman, R.L.: Identification and mapping of a mouse gene influencing cerebellar folial pattern.Brain Res 524: 85–89, 1990.Google Scholar
  117. Neumann, P.E., Mueller, G.G., and Sidman, R.L.: Identification and mapping of a mouse gene influencing cerebellar folial pattern.Brain Res 524: 85–89, 1990.Google Scholar
  118. O'Brien, A.D., Rosenstreich, D.L., Scher, I., Campbell, G.H., MacDermott, R.P., and Formal, S.B.: Genetic control of susceptibility to Salmonella typhimurium in mice: Role of theLps gene.J Immunol 124: 20–24, 1980.Google Scholar
  119. Okumoto, M., Nishikawa, R., Imai, S., and Hilgers, J.: Genetic analysis of resistance to radiation lymphomagenesis with recombinant inbred strains of mice.Cancer Res 50: 3848–3850, 1990.Google Scholar
  120. Oliverio, A. and Elftheriou, B.E.: Motor activity and alcohol: Genetic analysis in the mouse.Physiol Behav 16: 577–581, 1976.Google Scholar
  121. Phillips, R.J.S. and Hawker, S.G.: Linkage of ochre.Mouse News Lett 49: 29, 1973.Google Scholar
  122. Phillips, R.J.S.: Location ofOch.Mouse News Lett 50: 42, 1974.Google Scholar
  123. Potter, M., Finlayson, J.S., Bailey, D.W., Mushinski, E.B., Reamer, B.L., and Walters, J.L.: Major urinary protein and immunoglobulin allotypes of recombinant inbred strains.Genet Res Camb 22: 325–328, 1973.Google Scholar
  124. Propst, F., Vande Woude, G.F., Jenkins, N.A., Copeland, N.G., Lee, B.K., Hunt, P.A., and Eicher, E.M.: TheMos protooncogene maps near the centromere on mouse Chr 4.Genomics 5: 118–123, 1989.Google Scholar
  125. Pullen, A.M., Marrack, P., and Kappler, J.W.: Evidence thatMls-2 antigens which delete Vβ3〈+〉 T cells are controlled by multiple genes.J Immunol 142: 3033–3037, 1989.Google Scholar
  126. Rasberry, C., Cattanach, B.M., Evans, E.P., and Burtenshaw, M.: T(4;12)47H.Mouse News Lett 83: 164, 1989.Google Scholar
  127. Richards-Smith, B. and Elliott, R.: Mapping of a family of repeated sequences in the mouse genome.Mouse News Lett 71: 46–47, 1984.Google Scholar
  128. Roberts, M., Alexander, J., and Blackwell, J.M.: Genetic analysis of Leishmania mexicana infection in mice: Single gene (Scl-2) controlled predisposition to cutaneous lesion development.J Immunogenet 17: 89–100, 1990.Google Scholar
  129. Roderick, T.H., Hawes, N.L., Davisson, M.T., and Hillyard, A.L.: Map of Inversions.In M.F. Lyon, A.G. Searle (eds.),Genetic Variants and Strains of the Laboratory Mouse, Second Edition, pp. 626–631. Oxford University Press, New York, 1989.Google Scholar
  130. Rowe, W.P., Humphrey, J.B., and Lilly, F.: A major genetic locus affecting resistance to infection with murine leukemia viruses. III. Assignment of theFv-1 locus to linkage group VIII of the mouse.J Exp Med 137: 850–853, 1973.Google Scholar
  131. Rowe, W.P. and Sato, H.: Genetic mapping of theFv-1 locus of the mouse.Science 180: 640–641, 1973.Google Scholar
  132. Russell, L.B. and Bangham, J.W.: Variegate-type position effects in the mouse.Genetics 44: 532, 1959.Google Scholar
  133. Russell, L.B.: Oak Ridge National Laboratory Biol Div Ann Prog Rep 1974: 121.Google Scholar
  134. Russell, L.B.: A second T(X;8) in the mouse.Genetics 71:, s53–54, 1972.Google Scholar
  135. Russell, L.B.: X-autosome translocations in the mouse: Their characterization and use as tools to investigate the gene inactivation and gene action.In A.A. Sandberg (ed.),Cytogenetics of the Mammalian X Chromosome, pp. 205–250. Alan Liss, New York, 1983, Part A.Google Scholar
  136. Said, K., Jacquart, T., Montgelard, C., Sonjaya, H., Helal, A.N., and Britton-Davidian, J.: Robertsonian house mouse populations in Tunisia: A caryological and biochemical study.Genetics 68: 151–156, 1986.Google Scholar
  137. Sanyal, S., Van Nie R., De Moes, J., and Hawkins, R.K.: Map position of dysgenetic lens (dyl) locus on Chr 4 in the mouse.Genet Res 48: 199–200, 1986.Google Scholar
  138. Sato, H., Itakura, K., and Boyse, E.A.: Location ofLyb-2 on mouse Chr 4.Immunogenetics 4: 591–595, 1977.Google Scholar
  139. Searle, A.G., Beechey, C.V., Eicher, E.M., Nesbitt, M.N., and Washburn, L.L.: Colinearity in the mouse genome: A study of chromosome 2.Cytogenet Cell Genet 23: 255–263, 1979.Google Scholar
  140. Searle, A.G., Beechey, C.V., Evans, E.P., and Kirk, M.: Two new X-autosome translocations in the mouse.Cytogenet Cell Genet 35: 279–292, 1983.Google Scholar
  141. Searle, A.G., Beechey, C.V., and Evans, E.P.: Meiotic effects in chromosomally derived male sterility of mice.Ann Biol Anim Biochim Biophys 18: 391–398, 1978.Google Scholar
  142. Searle, A.G.: Chromosomal variants: Numerical variants and structural rearrangements.In M.F. Lyon, A.G. Searle (eds.),Genetic Variants and Strains of the Laboratory Mouse, Second Edition, pp. 582–616. Oxford University Press, Oxford, 1989.Google Scholar
  143. Searle, A.G.: Linkage ofPs withm.Mouse News Lett 38: 22, 1968.Google Scholar
  144. Shaper, N.L., Shaper, J.H., Peyser, M., and Kozak, C.A.: Localization of the gene for β1,4-galactosyltransferase to a position in the centromeric region of mouse Chr 4.Cytogenet Cell Genet in press, 1990.Google Scholar
  145. Sidman, C.L., Marshall, J.D., Beamer, W.G., Nadeau, J.H., and Unanue, E.R.: Two loci affecting B cell responses to B cell maturation factors.J Exp Med 163: 116–128, 1986.Google Scholar
  146. Siracusa, L.D., Buchberg, A.M., Copeland, N.G., and Jenkins, N.A.: Recombinant inbred strain and interspecific backcross analysis of molecular markers flanking the murine agouti coat color locus.Genetics 122: 669–679, 1989.Google Scholar
  147. Siracusa, L.D., Jenkins, N.A., and Copeland, N.G.: Identification and applications of repetitive probes for gene mapping in the mouse.Genetics 127: 169–179, 1991.Google Scholar
  148. Sirlin, J.L.: Location of vacillans in linkage group VIII of the house mouse.Heredity 11: 259–260, 1957.Google Scholar
  149. Sirlin, J.L.: Vacillans, a neurological mutant in the house mouse linked withbrown.J Genet 54: 42–48, 1956.Google Scholar
  150. Skow, L.C.: Linkage ofPan-1.Mouse News Lett 69: 46, 1983.Google Scholar
  151. Snell, G.D.: An analysis of translocations in the mouse.Genetics 31: 157–180, 1946.Google Scholar
  152. Sweet, H.O.: Clasper (cla).Mouse News Lett 73: 18, 1985.Google Scholar
  153. Tada, N., Kimura, S., and Hammerling, U.: Immunogenetics of mouse B-cell alloantigen systems defined by monoclonal antibodies and gene-cluster formation of these loci.Immunol Rev 69: 99–126, 1982.Google Scholar
  154. Tada, N., Kimura, S., and Ikegami, S.: Phenotypic expression of the mouse lymphocyte surface alloantigens.Mouse News Lett 84: 59–71, 1989.Google Scholar
  155. Tada, N., Kimura, S., Liu, Y., Taylor, B.A., and Hammerling, U.:Ly-m19: TheLyb-2 region of mouse Chr 4 controls a new surface alloantigen.Immunogenetics 13: 539–546, 1981.Google Scholar
  156. Tada, N., Kimura, S., Liu-Lam, Y., and Hammerling, U.: A new lymphocyte surface antigen (Ly-m31) controlled by a gene closely linked to theAkp-2 locus on mouse Chr 4.Immunogenetics 20: 589–592, 1984.Google Scholar
  157. Tanaka, K., Miura, N., Satokata, I., Miyamoto, I., Yoshida, M.C., Satoh, Y., Kondo, S., Yasui, A., Okayama, H., and Okada, Y.: Analysis of a human DNA excision repair gene involved in group A xeroderma pigmentosum and containing a zinc-finger domain.Nature 348: 73–76, 1990.Google Scholar
  158. Taylor, B.A., Bedigian, H.G., and Meier, H.: Genetic studies of theFv-1 locus of mice: Linkage withGpd-1 in recombinant inbred lines.J Virol 23: 106–109, 1977.Google Scholar
  159. Taylor, B.A. and Shen, F.-W.: Location ofLyb-2 on Chr 4: Evidence from recombinant inbred strains.Immunogenetics 4: 597–599, 1977.Google Scholar
  160. Taylor, B.A.: Recombinant inbred strains.In M.F. Lyon and A.G. Searle (eds.),Genetic Variants and Strains of the Laboratory Mouse, pp. 773–796, Second Edition, Oxford, Oxford University Press, 1989.Google Scholar
  161. tenBerg, R.: REcombinant inbred series, OXA.Mouse News Lett 84: 102–104, 1989.Google Scholar
  162. Threadgill, D.W. and Womack, J.E.: Regional localization of mouseAbl andMos protooncogenes by in situ hybridization.Genomics 3: 82–86, 1988.Google Scholar
  163. Todd, J.A., Aitman, T.J., Cornall, R.J., Ghosh, S., Hall, J.R.S., Hearne, C.M., Knight, A.M., Love, J.M., McAleer, M.A., Prins, J.-B., Rodrigues, N., Lathrop, M., Pressey, A., DeLarato, N.H., Peterson, L.B., and Wicker, L.S.: Genetic analysis of autoimmune type 1 diabetes mellitus in mice.Nature 351: 542–547, 1991.Google Scholar
  164. Varnum, D.S. and Fox, S.C.: Head blebs: A new mutation on Chr 4 of the mouse.J Hered 72: 293, 1981.Google Scholar
  165. Vijaya, S., Steffen, D.L., Kozak, C., and Robinson, H.L.: Dsi-1, a region with frequent proviral insertions in Moloney murine leukemia virus-induced rat thymomas.J Virol 61: 1164–1170, 1987.Google Scholar
  166. Watson, J., Kelley, K., Largen, M., and Taylor, B.A.: The genetic mapping of a defectiveLPS response gene in C3H/HeJ mice.J Immunol 120: 422–424, 1978.Google Scholar
  167. Watson, J., Largen, M., and McAdam, K.P.W.: Genetic control of endotoxic response in mice.J Exp Med 147: 39–49, 1978.Google Scholar
  168. Watson, J., Largen, M., and McAdam, K.P.W.: Genetic control of endotoxic response in mice.J Exp Med 147: 39–49, 1978.Google Scholar
  169. Watson, J., Riblet, R., and Taylor, B.A.: The response of recombinant inbred strains of mice to bacterial lipopolysaccharides.J Immunol 118: 2088–2093, 1977.Google Scholar
  170. Wejman, J.C., Taylor, B.A., Jenkins, N.A., and Copeland, N.G.: Endogenous xenotropic murine leukemia virus-relaed sequences map to chromosomal regions encoding mouse lymphocyte antigens.J Virol 50: 237–247, 1985.Google Scholar
  171. Wilcox, F.H. and Taylor, B.A.: Genetics of theAkp-2 locus for alkaline phosphatase of liver, kidney, bone, and placenta in the mouse.J Hered 72: 387–390, 1981.Google Scholar
  172. Windle, J.J., Albert, D.M., O'Brien, J.M., Marcus, D.M., Disteche, C.M., Bernards, R., and Mellon, P.: L. Retinoblastoma in transgenic mice.Nature 343: 665–669, 1990.Google Scholar
  173. Woolley, G.W.: Misty dilution in the mouse.J Hered 36: 269–270, 1945.Google Scholar
  174. Yoon, C.H.: Linkage relationship of the waddler gene in mice with evidence for temperature effect on crossing over.J Hered 52: 279–281, 1961.Google Scholar

Copyright information

© Springer-Verlag New York Inc. 1991

Authors and Affiliations

  • Robert Blank
  • Janan Eppig
  • Fred T. FiedorekJr.
  • Wayne N. Frankel
  • Jeffrey M. Friedman
    • 1
    • 2
  • Konrad Huppi
  • Ian Jackson
  • Beverly Mock
  1. 1.Howard Hughes Medical InstituteThe Rockefeller UniversityNew YorkUSA
  2. 2.Laboratory of Molecular Cell BiologyThe Rockefeller UniversityNew YorkUSA

Personalised recommendations