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M C Watkins

Showing results (11-20 of 25) with videos related to

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Nature|December 16, 1982
Nonspecific inhibitor released by T acceptor cells reduces the production of interleukin-2M Malkovsky, G L Asherson, B Stockinger, et al.
Immunology|December 1, 1982
Desensitization in vitro: the role of T-suppressor cells, T-suppressor factor and T-acceptor cells in the inhibition of the passive transfer of contact sensitivity to picryl chloride by exposure to antigen in vitroM Zembala, G L Asherson, V Colizzi, et al.
Immunology|August 1, 1984
Non-specific inhibitor made by T acceptor cells inhibits both the afferent and efferent stage of the contact sensitivity reactionM A Zembala, V Colizzi, G L Asherson, et al.
Immunology|June 1, 1980
Experimental erythrocyte autoimmunity. I. Mice congenic for immunoglobulin allotypes vary in production of autoantibodies but produce suppressor cells not restricted by allotypesK O Cox, J Cox, W R Thomas, et al.
Cellular Immunology|June 1, 1982
Control of suppressor cell activity: autoanti-idiotype B cells produced by painting with picryl chloride inhibit the T-suppressor cell which blocks the efferent stage of contact sensitivityG L Asherson, M Zembala, S C Gautam, et al.
Immunology|March 1, 1980
Antigen-specific mast cell degranulation in contact sensitivity to picryl chloride. An early eventW R Thomas, N Vardinon, M C Watkins, et al.
Immunology|January 1, 1980
Distribution of immunogenic cells after painting with the contact sensitizers fluorescein isothiocyanate and oxazolone. Different sensitizers form immunogenic complexes with different cell populationsW R Thomas, A J Edwards, M C Watkins, et al.
Cellular Immunology|July 1, 1984
Two-chain structure of T-suppressor factor: antigen-specific T-suppressor factor occurs as a single molecule and as separate antigen-binding and I-J+ parts, both of which are required for biological activityG L Asherson, M C Watkins, M A Zembala, et al.
Immunology|October 1, 1978
Induction and modification of anti-TNP reaginic and IgG antibody responses by reactive trinitrophenyl derivativesW R Thomas, M C Watkins, S S Jouhal, et al.
Immunology|March 1, 1978
Antibody responses to contact sensitizing agents. Effect of sensitized cellsW R Thomas, M C Watkins, P J Wood, et al.
Pageof 3

Showing results (11-20 of 25) with videos related to

Sort By:
Pageof 3
Nature|December 16, 1982
Nonspecific inhibitor released by T acceptor cells reduces the production of interleukin-2M Malkovsky, G L Asherson, B Stockinger, et al.
Immunology|December 1, 1982
Desensitization in vitro: the role of T-suppressor cells, T-suppressor factor and T-acceptor cells in the inhibition of the passive transfer of contact sensitivity to picryl chloride by exposure to antigen in vitroM Zembala, G L Asherson, V Colizzi, et al.
Immunology|August 1, 1984
Non-specific inhibitor made by T acceptor cells inhibits both the afferent and efferent stage of the contact sensitivity reactionM A Zembala, V Colizzi, G L Asherson, et al.
Immunology|June 1, 1980
Experimental erythrocyte autoimmunity. I. Mice congenic for immunoglobulin allotypes vary in production of autoantibodies but produce suppressor cells not restricted by allotypesK O Cox, J Cox, W R Thomas, et al.
Cellular Immunology|June 1, 1982
Control of suppressor cell activity: autoanti-idiotype B cells produced by painting with picryl chloride inhibit the T-suppressor cell which blocks the efferent stage of contact sensitivityG L Asherson, M Zembala, S C Gautam, et al.
Immunology|March 1, 1980
Antigen-specific mast cell degranulation in contact sensitivity to picryl chloride. An early eventW R Thomas, N Vardinon, M C Watkins, et al.
Immunology|January 1, 1980
Distribution of immunogenic cells after painting with the contact sensitizers fluorescein isothiocyanate and oxazolone. Different sensitizers form immunogenic complexes with different cell populationsW R Thomas, A J Edwards, M C Watkins, et al.
Cellular Immunology|July 1, 1984
Two-chain structure of T-suppressor factor: antigen-specific T-suppressor factor occurs as a single molecule and as separate antigen-binding and I-J+ parts, both of which are required for biological activityG L Asherson, M C Watkins, M A Zembala, et al.
Immunology|October 1, 1978
Induction and modification of anti-TNP reaginic and IgG antibody responses by reactive trinitrophenyl derivativesW R Thomas, M C Watkins, S S Jouhal, et al.
Immunology|March 1, 1978
Antibody responses to contact sensitizing agents. Effect of sensitized cellsW R Thomas, M C Watkins, P J Wood, et al.
Pageof 3