Information Technology Reference
In-Depth Information
27.
Taams, L.S., et al.: Modulation of monocyte/macrophage function by human
CD4+CD25+ regulatory T cells. Human Immunology (2005)
66
(3) 222-230
28.
Nolte-'t Hoen, E.N., et al.: Uptake of membrane molecules from T cells endows antigen-
presenting cells with novel functional properties. European Journal of Immunology (2004)
34
(11) 3115-25
29.
Taams, L.S., et al.: Anergic T cells actively suppress T cell responses via the antigen-
presenting cell. European Journal of Immunology (1998)
28
(9) 2902-2912
30.
Huang, J.F., et al.: TCR-Mediated internalization of peptide-MHC complexes acquired by
T cells. Science (1999)
286
(5441) 952-954
31.
Gunzer, M., et al.: Antigen presentation in extracellular matrix: interactions of T cells with
dendritic cells are dynamic, short lived, and sequential. Immunity (2000)
13
(3) 323-332
32.
Mempel, T.R., Henrickson, S.E., U.H. Von Andrian: T-cell priming by dendritic cells in
lymph nodes occurs in three distinct phases. Nature (2004)
427
(6970) 154-159
33.
Depoil, D., et al.: Immunological synapses are versatile structures enabling selective T cell
polarization. Immunity (2005)
22
(2) 185-194
34.
Eissner, G., Kolch, W., Scheurich, P.: Ligands working as receptors: reverse signaling by
members of the TNF superfamily enhance the plasticity of the immune system. Cytokine
Growth Factor Rev (2004)
15
353-366
35.
Lehner, M., et al.: MHC class II antigen signaling induces homotypic and heterotypic
cluster formation of human mature monocyte derived dendritic cells in the absence of cell
death. Human Immunology (2003)
64
(8) 762-770
36.
Lokshin, A.E., et al.: Differential regulation of maturation and apoptosis of human
monocyte-derived dendritic cells mediated by MHC class II. International Immunology
(2002)
14
(9) 1027-1037
37.
Walzer, T., et al.: Natural-killer cells and dendritic cells: l'union fait la force . Blood
(2005)
106
(7) 2252-2258
38.
Gett, A.V., et al., T cell fitness determined by signal strength. Nature Immunology, (2003)
4
(4) 355-360
39.
Iezzi, G., Karjalainen, K., Lanzavecchia, A.: The duration of antigenic stimulation
determines the fate of naive and effector T cells. Immunity (1998)
8
(1) 89-95
40.
Iezzi, G., et al.: The interplay between the duration of TCR and cytokine signaling
determines T cell polarization. European Journal Immunology (1999)
29
(12) 4092-4101
41.
Wulfing, C., et al.: Stepwise cytoskeletal polarization as a series of checkpoints in innate but
not adaptive cytolytic killing. Proc Natl Acad Sci U S A (2003)
100
(13) 7767-7772
42.
Davis, D.M.: Assembly of the immunological synapse for T cells and NK cells, Trends in
Immunology (2002)
23
(7): 356-363
43.
Davis, D.M., Dustin, M.L.: What is the importance of the immunological synapse?.
Trends in Immunology (2004)
25
(6) 323-327
44.
Gusfield, D., Irving, R.W.: The stable marriage problem: structure and algorithms, MIT
Press, Cambridge, MA, USA(1989)
45.
Mertens, S.: Computational complexity for physicists. Computing in Science and
Engineering (2002)
4
(3) 31-47
46.
Hopfield, J.J.: Kinetic proofreading - new mechanism for reducing errors in biosynthetic
processes requiring high specificity Proc Natl Acad Sci U S A (1974)
71
(10) 4135-4139
47.
Ninio, J.: Kinetic amplification of enzyme discrimination. Biochimie (1975)
57
(5)
587-595