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TY  - BOOK
ID  - 2719563
TI  - Immunoreceptor tyrosine-based inhibition motifs
AU  - Daëron, Marc
AU  - Vivier, Eric
PY  - 1999
VL  - 244
SN  - 3540657894 3642636349 364258537X
PB  - Berlin : Springer,
DB  - UniCat
KW  - Receptors
KW  - Immunosuppressive Agents.
KW  - Lymphocyte Activation.
KW  - Immunologic.
KW  - Immune System Processes
KW  - Immunity, Cellular
KW  - Immunologic Tests
KW  - Receptors, Cell Surface
KW  - Immunologic Factors
KW  - Amino Acids, Aromatic
KW  - Adaptive Immunity
KW  - Immune System Phenomena
KW  - Membrane Proteins
KW  - Physiological Effects of Drugs
KW  - Amino Acids, Cyclic
KW  - Immunologic Techniques
KW  - Laboratory Techniques and Procedures
KW  - Investigative Techniques
KW  - Immunity
KW  - Amino Acids
KW  - Proteins
KW  - Diagnosis
KW  - Phenomena and Processes
KW  - Pharmacologic Actions
KW  - Amino Acids, Peptides, and Proteins
KW  - Analytical, Diagnostic and Therapeutic Techniques and Equipment
KW  - Chemical Actions and Uses
KW  - Chemicals and Drugs
KW  - Immunosuppressive Agents
KW  - Lymphocyte Activation
KW  - Tyrosine
KW  - Receptors, Immunologic
KW  - Immunology.
KW  - Cell biology.
KW  - Cancer research.
KW  - Cell Biology.
KW  - Cancer Research.
KW  - Cancer research
KW  - Cell biology
KW  - Cellular biology
KW  - Biology
KW  - Cells
KW  - Immunobiology
KW  - Life sciences
KW  - Serology
KW  - Cell proliferation.
KW  - Cell renewal
KW  - Cellular proliferation
KW  - Cell cycle
KW  - Cell division
KW  - Cell populations
KW  - Growth
UR  - https://www.unicat.be/uniCat?func=search&query=sysid:2719563
AB  - Novel molecular motifs named Immunoreceptor Tyrosine-based Inhibition Motifs (ITIMs) have recently been recognized in the intracytoplasmic domains of a still-increasing number of receptors which control cell activation and proliferation. Research on ITIM-bearing molecules has developed exponentially during the last three years, generating new concepts with important consequences in basic research and with exciting potential clinical applications. The present volume contains 15 reviews written by authors who all made significant contributions to the identification of ITIM-bearing molecules and the study of their biological properties. It constitutes the first synthesis ever published that is specifically devoted to this emerging topic.
ER  -