Human CD28 and CTLA-4 Ig superfamily genes are located on chromosome 2 at bands q33–q34 (original) (raw)
References
Arthur, D. C., Aaseng, S. M., and Bloomfield, C. D.: A new recurring chromosome abnormality in acute nonlymphocytic leukemia: del(2) (q23q33). Cytogenet Cell Genet 46: 572, 1987 Google Scholar
Aruffo, A. and Seed, B.: Molecular cloning of a CD28 cDNA by a high-efficiency COS cell expression system. Proc Natl Acad Sci USA 84: 8573–8577, 1987 Google Scholar
Bloomfield, C. D., Arthur, D. C., Frizzera, G., Levine, E. G., Peterson, B. A., and Gajl-Peczalska, K. J.: Nonrandom chromosome abnormalities in lymphoma. Cancer Res 43: 2975–2984, 1983 Google Scholar
Brunet, J. F., Denizot, F., Luciani, M. F., Roux-Dosseto, M., Suzan, M., Mattéi, M. G., and Golstein, P.: A new member of the immunoglobulin superfamily CTLA-4. Nature 328: 267, 1987 Google Scholar
Dariavach, P., Mattéi, M. G., Golstein, P., and Lefranc, M. P.: Human Ig superfamily CTLA-4 gene: chromosomal localization and identity of protein sequence between murine and human CTLA-4 cytoplasmic domains. Eur J Immunol 18: 1901–1905, 1988 Google Scholar
Hara, T., Fu, S. M., and Hansen, J. A.: Human T cell activation. II. A new activation pathway used by major T cell population via a disulfide-bonded dimer of a 44 kilodalton polypeptide (9.3 antigen). J Exp Med 161: 1513–1527, 1985 Google Scholar
Hunkapiller, T. and Hood, L.: Diversity of the immunoglobulin gene superfamily. Adv Immunol 44: 1–63, 1989 Google Scholar
Kozbor, D., Moretta, A., Messner, H. A., Moretta, L., and Croce, C. M.: Tp44 molecules involved in antigen-independent T cell activation are expressed on human plasma cells. J Immunol 138: 4128–4132, 1987 Google Scholar
Lafage, M., Maroc, N., Dubreuil, P., de Waal Malefijt, R., Pébusque, M. J., Carcassone, Y., and Mannoni, P.: The human Interleukin-1α gene is located on the long arm of chromosome 2 at band q13. Blood 73: 104–107, 1989 Google Scholar
Ledbetter, J. A., Martin, P. J., Spooner, C. E., Wofsy, D., Tsu, T. T., Beatty, P. G., and Gladstone, P.: Antibodies to Tp67 and Tp44 augment and sustain proliferative responses of activated T cells. J Immunol 135: 2331–2336, 1985 Google Scholar
Levine, E. G., Arthur, D. C., Frizzera, G., Peterson, B. A., Hurd, D. D., and Bloomfield, C. D.: There are differences in cytogenetic abnormalities among histologic subtypes of the non-Hodgkin's lymphomas. Blood 66: 1414–1422, 1985 Google Scholar
Lindstein, T., June, C. H., Ledbetter, J. A., Stella, G., and Thompson, C. B.: Regulation of lymphokine messenger RNA stability by a surface-mediated T cell activation pathway. Science 244: 339–345, 1989 Google Scholar
Miyamoto, K., Tomita, N., Ishii, A., Nonaka, H., Kondo, T., Tanaka, T., and Kitajima, K.: Chromosome abnormalities of leukemia cells in adult patients with T-cell leukemia. J Natl Cancer Inst 73: 353–362, 1984 Google Scholar
Modi, W. S., Masuda, A., Yamada, M., Oppenheim, J. J., Matsushima, K., and O'Brien, S. J.: Chromosomal localization of the human Interleukin 1α (IL-1α) gene. Genomics 2: 310–314, 1988 Google Scholar
Nowell, P. C., Vonderheid, E. C., Besa, E., Hoxie, J. A., Moreau, L., and Finan, J. B.: The most common chromosome change in 86 chronic B cell or T cell tumors: a 14q32 translocation. Cancer Genet Cytogenet 19: 219–227, 1986 Google Scholar
Pierre, A., Lopez, M., Cerdan, C., Nunes, J., Olive, D., and Mawas, C.: Triggering CD28 molecules synergize with CD2 (T11.1 and T11.2)-mediated T cell activation. Eur J Immunol 18: 685–690, 1988 Google Scholar
Pierres, A., Cerdan, C., Lopez, M., Mawas, C., and Olive, D.: “CD3low” human thymocyte populations can already be triggered via the CD2 and/or CD28 activation pathways while the CD3 pathway remains non-functional. J Immunol, in press, 1990
Pittman, S. and Catovsky, D.: Pronostic significance of chromosome abnormalities in chronic lymphocytic leukeamia. Br J Haematol 58: 649–660, 1984 Google Scholar
Povey, S. and Falk, C. T.: Report of the committee on the genetic constitution of chromosome 2. Human Gene Mapping 10. Cytogenetic Cell Genet 51: 91–105, 1989 Google Scholar
Sewell, W. A., Palmer, R. W., Spurr, N.K., Sheer, D., Brown, M. H., Bell, Y., and Crumpton, M. J.: The human LFA-3 gene is located at the same chromosome band as the gene for its receptor CD2. Immunogenetics 28: 278–282, 1988 Google Scholar
Sims, J. E., March, C. J., Cosman, D., Widmer, M. B., MacDonald, H. R., McMahan, C. J., Grubin, C. E., Wignall, J. M., Jackson, J. L., Call, S. M., Friend, D., Alpert, A. R., Gillis, S., Urdal, D. L., and Dower, S. K.: cDNA expression cloning of the IL-1 receptor, a member of the immunoglobulin superfamily. Science 241: 585–589, 1988 Google Scholar
Spurr, N. K., Goodfellow, P. N., and Johnson, P.: CD8B, the human equivalent of the mouse Ly-3 gene is localized on chromosome 2. Immunogenetics 27: 70–72, 1988 Google Scholar
Sukhatme, V. P., Volmer, A. C., Erickson, J., Isobe, M., Croce, C., and Parnes, J. R.: Gene for the human T cell differentiation antigen Leu-2/T8 is closely linked to the kappa light chain locus on chromosome 2. J Exp Med 161: 429–434, 1985 Google Scholar
Tunnacliffe, A., Buluwela, L., and Rabbits, T. H.: Physical linkage of three CD3 genes on human chromosome 11. EMBO J 6: 2953–2957, 1987 Google Scholar
Webb, A. C., Collins, K. L., Auron, P. E., Eddy, R. L., Nakai, H., Byers, M. G., Haley, L. L., Henry, W. M., and Shows, T. B.: Interleukin-1 (IL-1) assigned to long arm of human chromosome 2. Lymphokine Res 5: 77–85, 1986 Google Scholar
Williams, A. F. and Barclay, A. N.: The immunoglobulin superfamily. Domains for cell surface recognition. Annu Rev Immunol 6: 381–405, 1988 Google Scholar