Second generation immune networks.
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[1] F. Melchers,et al. Inhibition of mitogenic stimulation of mouse lymphocytes by anti‐mouse immunoglobulin antibodies. I. Mode of action , 1974, European journal of immunology.
[2] F. Melchers,et al. Maturation of mitogen‐activated bone marrow‐derived lymphocytes in the absence of proliferation , 1974, European journal of immunology.
[3] S. Avrameas,et al. Naturally occurring antibodies against nine common antigens in human sera. I. Detection, isolation and characterization. , 1982, Journal of immunology.
[4] F. Alt,et al. Preferential utilization of the most JH-proximal VH gene segments in pre-B-cell lines , 1984, Nature.
[5] Robbert Benner,et al. Isotypes and specificities of immunoglobulins produced by germ‐free mice fed chemically defined ultrafiltered “antigen‐free” diet , 1984, European journal of immunology.
[6] D. Moras,et al. Correlation between segmental mobility and the location of antigenic determinants in proteins , 1984, Nature.
[7] A. Coutinho,et al. Reactions among IgM antibodies derived from normal, neonatal mice , 1984, European journal of immunology.
[8] Stephen Wolfram,et al. Cellular automata as models of complexity , 1984, Nature.
[9] A. Coutinho,et al. The high idiotypic connectivity of “natural” newborn antibodies is not found in adult mitogen‐reactive B cell repertoires , 1986, European journal of immunology.
[10] N. Shastri,et al. Neonatal T-cell tolerance to minimal immunogenic peptides is caused by clonal inactivation , 1986, Nature.
[11] A. Coutinho,et al. Lymphocyte Population Kinetics in the Mouse , 1986, Immunological reviews.
[12] A. Coutinho,et al. Autonomous activation of B and T cells in antigen‐free mice , 1986, European journal of immunology.
[13] A. Coutinho,et al. Immunocompetent autoreactive B lymphocytes are activated cycling cells in normal mice , 1986, The Journal of experimental medicine.
[14] B. Bogen,et al. Idiotope‐specific T cell clones that recognize syngeneic immunoglobulin fragments in the context of class II molecules , 1986, European journal of immunology.
[15] J. Kearney,et al. In vivo suppression of perinatal multispecific B cells results in a distortion of the adult B cell repertoire , 1986, European journal of immunology.
[16] F. Alt,et al. Development of the primary antibody repertoire. , 1987, Science.
[17] D. Holmberg. High connectivity, natural antibodies preferentially use 7183 and QUPC52 VH families , 1987, European journal of immunology.
[18] Thomas L. Rothstein,et al. The role of clonal selection and somatic mutation in autoimmunity , 1987, Nature.
[19] C. Milstein,et al. Mutation Drift and Repertoire Shift in the Maturation of the Immune Response , 1987, Immunological reviews.
[20] A. Coutinho,et al. Natural lymphocyte activation in postnatal development of germ-free and conventional mice. , 1988, Annales de l'Institut Pasteur. Immunology.
[21] A. Coutinho,et al. Inverse correlation between the utilization of an idiotype in specific immune responses and its representation in pre‐immune “natural” antibodies , 1988, European journal of immunology.
[22] A S Perelson,et al. Modeling adaptive biological systems. , 1989, Bio Systems.
[23] A. Coutinho,et al. Beyond Clonal Selection and Network , 1989, Immunological reviews.
[24] D. Holmberg,et al. Establishment and Functional Implications of B‐cell Connectivity , 1989, Immunological reviews.
[25] F. Varela,et al. Exploring the Meaning of Connectivity in the Immune Network , 1989, Immunological reviews.
[26] F. Varela,et al. The relationship between connectivity and tolerance as revealed by computer simulation of the immune network: some lessons for an understanding of autoimmunity. , 1989, Journal of autoimmunity.
[27] A. Coutinho,et al. Tolerize one, tolerize them all: tolerance is self-assertion. , 1989, Immunology today.
[28] A. Perelson. Immune Network Theory , 1989, Immunological reviews.
[29] Pauline Hogeweg,et al. Unreasonable implications of reasonable idiotypic network assumptions , 1989 .
[30] P. Pereira,et al. V-region connectivity in T cell repertoires. , 1989, Annual review of immunology.
[31] M. Kazatchkine,et al. Anti‐idiotypes against Autoantibodies in Normal Immunoglobulins: Evidence for Network Regulation of Human Autoimmune Responses , 1989, Immunological reviews.
[32] Susumu Tonegawa,et al. Junctional sequences of T cell receptor γδ genes: Implications for γδ T cell lineages and for a novel intermediate of V-(D)-J joining , 1989, Cell.
[33] F. Varela,et al. Autoimmunity: the Moving Boundaries Between Physiology and Pathology , 1989 .
[34] K. Rajewsky,et al. Sequence homologies, N sequence insertion and JH gene utilization in VHDJH joining: implications for the joining mechanism and the ontogenetic timing of Ly1 B cell and B‐CLL progenitor generation. , 1990, The EMBO journal.
[35] F. Varela,et al. Dynamics of a class of immune networks. II. Oscillatory activity of cellular and humoral components. , 1990, Journal of theoretical biology.
[36] Alan S. Perelson,et al. A SIMPLE IDIOTYPIC NETWORK MODEL WITH COMPLEX DYNAMICS , 1990 .
[37] L. Nelson,et al. Failure of clonal deletion in neonatally thymectomized mice: tolerance is preserved through clonal anergy , 1990, The Journal of experimental medicine.
[38] R. Poljak,et al. Three-dimensional structure of an idiotope–anti-idiotope complex , 1990, Nature.
[39] M. Zöller. Alteration of Idiotypic Connectivity in Prenatally Tolerized Neonatal Mice * , 1990, Scandinavian journal of immunology.
[40] A. Rudensky,et al. Immunoglobulin‐specific T‐B cell interaction. IV. B cell presentation of idiotypic determinant(s) of monoclonal anti‐surface immunoglobulin antibody to idiotope‐recognizing helper T clones , 1990, European journal of immunology.
[41] F. Varela,et al. Dynamics of a class of immune networks. I. Global stability of idiotype interactions. , 1990, Journal of theoretical biology.
[42] A. Feeney,et al. Lack of N regions in fetal and neonatal mouse immunoglobulin V-D-J junctional sequences , 1990, The Journal of experimental medicine.
[43] S. Ohno. Commentary on “The Protecton: The Evolutionarily Selected Unit of Humoral Immunity” , 1990, Immunological reviews.
[44] D. Holmberg,et al. Genetic basis of the neonatal antibody repertoire: germline V-gene expression and limited N-region diversity. , 1990, International immunology.