References
- Howard F.D., Ledbetter J.A., Wong J., Bieber C.P., Stinson E.B., Herrenberg A. A human T-lymphocyte differentiation marker defined by monoclonal antibodies that block E-rosette formation. Journal of Immunology 1981; 126: 2117–2122
- Hunig T. The cell surface molecule recognized by the crythrocyte receptor of T-lymphocytes. Journal of Experimental Medicine 1985; 890–895
- Kim C., Strulovici B., Cholon A., Lewis A.D., Giaccia A.J., Brown J.M. Radiation Research. Congress Abstracts 1991; 1: 213–213
- Meuer S.C., Hussey E.R., Fabbi M., Fox D., Acuto O., Fitzgerald A.K., Hodgdon C.J., Protentis P.J., Schlossman S.F., Reinherz E.L. An alternative pathway of T-cell activiation: a functional role for the 50Kd for the 50Kd Tll sheep crythrocyte receptor protein. Cell 1984; 36: 897–906
- Nishida Y., Tanimoto K., Akaoka I. Effect of free radicals on lymphocyte response to mitogen and rosette formation. Clinical Immunology and Immunopathology 1981; 19: 319–324
- Ojeda F., Andrade J., Maldonado C., Guarda M.I., Folch H. Radiation-induced surface IgG modulation: protein kinase C involvement. International Journal of Radiation Biology 1991; 59: 53–58
- DNA present in multilayer rosette formed by lymphocytes stimulated with phytohaemagglutinin. Nature 1975; 257: 485–486
- Reinherz E.L. A molecular basis for thymic selection: regulation of Tll induced thymocyte expansion by the T3-Ti antigen/MHC receptor pathway. Immunology Today 1985; 6: 75–84
- Sambrook J., Fritsch E.E., Maniatis T. Molecular Cloning: A Laboratory Manual2nd Edn. Cold Spring Harbor Laboratory, Cold Spring Harbor, NY 1989; 1–3
- Sayre P.Y., Chang H.C., Hussey R.E., Brown M.R., Richardson N.E., Spagnoli G., Clayton L.K., Reinherz E.L. Molecular cloning and expression of Tll2 cDNAs reveal a novel receptor like structure on T-lymphocytes. Proceedings of National Academy of Science, USA 1987; 84: 2941–2945
- Seed B. An LFA-3 cDNA encoded a phospholipidlinked membrane protein homologous to its receptor CD2. Nature 1987; 329: 840–842
- Seed B., Aruffo A. Molecular cloning of the CD2 antigen the T-cell erythrocyte receptor by a rapid immunoselection procedure. Proceedings of the National Academy of Science, USA 1987; 84: 3365–3369
- Sewell W.A., Brown M.H., Dunne J., Owen M.J., Crumpton M.J. Molecular cloning of the human T-lymphocyte surface CD2 (TII) antigen. Proceedings of the National Academy of Science, USA 1986; 83: 8718–8722
- Sewell W.A., Brown M.H., Owen M.J., Fink P.J., Kozak C.A., Crumpton M.J. The murine homology of the T-lymphocyte CD2 antigen: molecular cloning, chromosome assignment and cell surface expression. European Journal of Immunology 1987; 17: 1015–1020
- Southern E.M. Detection of specific sequences among DNA fragments separated by gel electrophoresis. Journal of Molecular Biology 1975; 98: 503–517
- Thomou H., Sambani C., Kitsiou P., Spanakos G., Politis G. Human chromosome 19 confers the CD2/E rosette receptor phenotype in interspecific cell hybrids. Anticancer Research 1991; 11: 1571–1580
- Verbi W., Greaves M.F., Scheider C., Koubek K., Janossy G., Stein H., Kung P., Goldstein G. Monoclonal antibodies OKTII and OKTIIA have pan-T reactivity and block sheep erythrocyte receptors. European Journal of Immunology 1982; 12: 81–86
- Wolters H., Tilburg C.A.M., Konings A.W.T. Radiation-induced lipid peroxidation: influence of oxygen concentrations and membrane lipid composition. International Journal of Radiation Biology 1987; 51: 619–628