TY  - BOOK
AU  - Gonzalez-Mariscal,Lorenza
ED  - SpringerLink (Online service)
TI  - Tight Junctions
SN  - 9780387366739
U1  - 571.6 23
PY  - 2006///
CY  - Boston, MA
PB  - Springer US
KW  - LIFE SCIENCES
KW  - ONCOLOGY
KW  - NEUROSCIENCES
KW  - TOXICOLOGY
KW  - CYTOLOGY
KW  - NEUROBIOLOGY
KW  - CELL BIOLOGY
KW  - CANCER RESEARCH
KW  - PHARMACOLOGY/TOXICOLOGY
N1  - Evolution of the Transporting Epithelium Phenotype -- Occludin, a Constituent of Tight Junctions -- Tight Junction Channels -- JAM Family Proteins -- Cingulin, a Cytoskeleton-Associated Protein of the Tight Junction -- ZO Proteins and Tight Junction Assembly -- TJ Proteins That Make Round Trips to the Nucleus -- Tight Junctions and the Regulation of Epithelial Cell Proliferation and Gene Expression -- Tight Junction Proteins and Cancer -- Regulation of Paracellular Transport across Tight Junctions by the Actin Cytoskeleton -- Regulation of Tight Junctions' Functional Integrity -- Tight Junctions during Development -- Tight Junctions and the Blood-Brain Barrier -- Tight Junctions in CNS Myelin -- Tight Junction Modulation and Its Relationship to Drug Delivery
N2  - Tight Junctions provides a state-of-the-art view on Tight Junctions (TJs). Starting with an analysis of the evolutionary development of a transporting epithelium in early metazoans, the book describes the current TJ structure and function information, including the present day evidence supporting the presence of ion channels within TJs. Particular emphasis is given to the lessons learned from cell culture models, mutant mice and heritable human diseases. To highlight the modern vision of TJs as signaling complexes, the book discusses the establishment of TJs during development, the shuttling of TJ proteins between the plasma membrane and the nucleus, and the role of TJ proteins in cell cycle progression and cancer
UR  - http://dx.doi.org/10.1007/0-387-36673-3
ER  -