Diversity, rearrangement, and expression of murine T cell gamma genes
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[1] C. Vulpe,et al. T-cell receptor variable region gene usage in T-cell populations. , 1986, Proceedings of the National Academy of Sciences of the United States of America.
[2] L. Hood,et al. The molecular genetics of the T-cell antigen receptor and T-cell antigen recognition. , 1986, Annual review of immunology.
[3] S. Tonegawa,et al. Expression of the T-cell-specific γ gene is unnecessary in T cells recognizing class II MHC determinants , 1985, Nature.
[4] B. Fowlkes,et al. Early T lymphocytes. Differentiation in vivo of adult intrathymic precursor cells , 1985, The Journal of experimental medicine.
[5] H. Snodgrass,et al. Expression of T-cell antigen receptor genes during fetal development in the thymus , 1985, Nature.
[6] S. Tonegawa,et al. Developmental regulation of T-cell receptor gene expression , 1985, Nature.
[7] S. Tonegawa,et al. Chromosomal locations of the murine T-cell receptor alpha-chain gene and the T-cell gamma gene. , 1985, Science.
[8] S. Tonegawa,et al. Structure, organization, and somatic rearrangement of T cell gamma genes , 1985, Cell.
[9] S. Tonegawa,et al. Limited diversity of the rearranged T-cell γ gene , 1985, Nature.
[10] Mark M. Davis,et al. A third type of murine T-cell receptor gene , 1984, Nature.
[11] S. Tonegawa,et al. A third rearranged and expressed gene in a clone of cytotoxic T lymphocytes , 1984, Nature.
[12] F. Alt,et al. Preferential utilization of the most JH-proximal VH gene segments in pre-B-cell lines , 1984, Nature.
[13] D. Melton,et al. Efficient in vitro synthesis of biologically active RNA and RNA hybridization probes from plasmids containing a bacteriophage SP6 promoter. , 1984, Nucleic acids research.
[14] M E Watson,et al. Compilation of published signal sequences. , 1984, Nucleic acids research.
[15] G. Church,et al. Genomic sequencing. , 1993, Methods in molecular biology.
[16] Mark M. Davis,et al. Isolation of cDNA clones encoding T cell-specific membrane-associated proteins , 1984, Nature.
[17] Tak W. Mak,et al. A human T cell-specific cDNA clone encodes a protein having extensive homology to immunoglobulin chains , 1984, Nature.
[18] S. Tonegawa,et al. Complete primary structure of a heterodimeric T-cell receptor deduced from cDNA sequences , 1984, Nature.
[19] J. Sambrook,et al. Molecular Cloning: A Laboratory Manual , 2001 .
[20] A. Poustka,et al. Lambda replacement vectors carrying polylinker sequences. , 1983, Journal of molecular biology.
[21] H. Macdonald,et al. Precursors of T cell growth factor producing cells in the thymus: ontogeny, frequency, and quantitative recovery in a subpopulation of phenotypically mature thymocytes defined by monoclonal antibody GK-1.5 , 1983, The Journal of experimental medicine.
[22] P. Marrack,et al. The major histocompatibility complex-restricted antigen receptor on T cells. IV. An antiidiotypic antibody predicts both antigen and I- specificity , 1983, The Journal of experimental medicine.
[23] P. Marrack,et al. The major histocompatibility complex-restricted antigen receptor on T cells. I. Isolation with a monoclonal antibody , 1983, The Journal of experimental medicine.
[24] E. Reinherz,et al. Clonotypic structures involved in antigen-specific human T cell function. Relationship to the T3 molecular complex , 1983, The Journal of experimental medicine.
[25] J. Allison,et al. Tumor-specific antigen of murine T-lymphoma defined with monoclonal antibody. , 1982, Journal of immunology.
[26] Stephen M. Mount,et al. A catalogue of splice junction sequences. , 1982, Nucleic acids research.
[27] P. Marrack,et al. Antigen-inducible, H-2-restricted, interleukin-2-producing T cell hybridomas. Lack of independent antigen and H-2 recognition , 1981, The Journal of experimental medicine.
[28] J. Seidman,et al. A mutant immunoglobulin light chain is formed by aberrant DNA- and RNA-splicing events , 1980, Nature.
[29] W. Gilbert,et al. Sequencing end-labeled DNA with base-specific chemical cleavages. , 1980, Methods in enzymology.
[30] W. Rutter,et al. Isolation of biologically active ribonucleic acid from sources enriched in ribonuclease. , 1979, Biochemistry.
[31] P. Fink,et al. The Influence of Thymus H‐2 Antigens on the Specificity of Maturing Killer and Helper Cells , 1978, Immunological reviews.
[32] R. Zinkernagel,et al. On the thymus in the differentiation of "H-2 self-recognition" by T cells: evidence for dual recognition? , 1978, The Journal of experimental medicine.
[33] M. Bevan. In a radiation chimaera, host H–2 antigens determine immune responsiveness of donor cytotoxic cells , 1977, Nature.
[34] W. D. Benton,et al. Screening lambdagt recombinant clones by hybridization to single plaques in situ. , 1977, Science.
[35] M. Bevan. The major histocompatibility complex determines susceptibility to cytotoxic T cells directed against minor histocompatibility antigens , 1975, The Journal of experimental medicine.
[36] E. Southern. Detection of specific sequences among DNA fragments separated by gel electrophoresis. , 1975, Journal of molecular biology.
[37] G. Shearer,et al. Cell‐mediated cytotoxicity to trinitrophenyl‐modified syngeneic lymphocytes , 1974, European journal of immunology.
[38] R. Zinkernagel,et al. Restriction of in vitro T cell-mediated cytotoxicity in lymphocytic choriomeningitis within a syngeneic or semiallogeneic system , 1974, Nature.
[39] D. Katz,et al. CELL INTERACTIONS BETWEEN HISTOINCOMPATIBLE T AND B LYMPHOCYTES , 1973, The Journal of experimental medicine.
[40] D. Shreffler,et al. H-2 dependence of co-operation between T and B cells in vivo. , 1972, Journal of immunology.