|
|
|
Cell volume regulation is of importance to animal cells, since swelling or shrinkage results in cell death. Osmotic pertubation confronts the cells with the problem of volume regulation, because most animal cell membrane are highly permeable to water. A number of cellular physiological activities are associated with osmotic perturbation to cells.
| ISBN | 0444829512 | | Pages | 230 | | ISBN13 | 9780444829511
(What's this?) | | Volumes | 000 | | Publisher | Elsevier Science & Technology | | Weight (grammes) | 585 | | Imprint | Elsevier Science Ltd | | Published in | Oxford | | Format | Hardback | | Series ISSN | 1160 | | Publication date | 24 Jul 1998 | | Series title | International Congress S. | | Library of Congress | QP90.6.T36 | | Height (mm) | 230 | | DEWEY | 571.61 | | Academic level | Undergraduate, Postgraduate, Professional / Scholarly | | DEWEY edition | DC21 | |
|
| |
| | | Preface | | | | | | Contributors | | | | | | How do red blood cells know how big they are? by J. R. Sachs | | 3 | | | | Volume sensor anion channel by Y. Okada and M. Tominaga and T. Tominaga | | 15 | | | | Platelet endothelial cell adhesion molecule-1 (PECAM-1, CD31) is involved in mechano-signal transduction in endothelial cells by M. Masuda and M. Osawa and H. Shigematsu | | 23 | | | | Neural volume regulation of single guinea-pig cardiac myocytes by T. Mitsuiye and A. Noma | | 35 | | | | Regulatory volume decrease in cultured brain cells: rate limiting factors by H. Pasantes-Morales and C. V. Morales-Mulia and O. Quesada | | 43 | | | | Cell volume in the regulation of metabolism, cell proliferation and apoptotic cell death by F. Lang and I. Szabo and A. Lepple-Wienhues | | 49 | | | | Activation of cellular signalling pathways by hypotonicity by B. C. Tilly and T. van der Wijk and H. R. de Jonge | | 59 | | | | Dual calcium response to cell volume change in aortic endothelium by M. Oike and C. Kimura and T. Koyama | | 67 | | | | Ionic mechanisms of RVD in A6 cells: SA channel, [Ca[superscript 2+]][subscript i] whole cell currents, and RVD by M. Sokabe and W. Yu and K. Takemoto | | 71 | | | | Cause and roles of mechanical stress in mammary gland by K. Furuya and H. Nakano and K. Enomoto | | 85 | | | | ATP release from swollen or CFTR-expressing epithelial cells by A. Hazama and A. Miwa and T. Miyoshi | | 93 | | | | Molecular mechanism of stress-induced cardiac hypertrophy by I. Komuro | | 99 | | | | Cell volume regulation: the role of chloride channels by T. J. C. Jacob and L. Wang and L. Chen | | 109 | | | | Electrophysiological properties of volume-regulated Cl[superscript -] channels in intestinal epithelial cells by S. Oiki and M. Kubo and Y. Okada | | 125 | | | | Is ICln a swelling dependent chloride channel? by M. Gschwentner and J. Furst and A. Schmarda | | 131 | | | | Volume-regulated anion channels in vascular endothelium by B. Nilius and J. Eggermont and T. Voets | | 141 | | | | Molecular machineries of the neonatal rat kidney against osmotic stress by K. Kawahara and N. Anzai and I. Isumida | | 151 | | | More... | | |
|
|
|
|
|
Enlarge
