Molecular Biology of MembranesSpringer Science & Business Media, 31 трав. 1993 р. - 404 стор. This text attempts to introduce the molecular biology of cell membranes to students and professionals of diverse backgrounds. Although several membrane biology books are available, they do not integrate recent knowledge gained using modern molecular tools with more traditional membrane topics. Molecular techniques, such as cDNA cloning and x-ray diffraction, have provided fresh insights into cell membrane structure and function. The great excitement today, which I attempt to convey in this book, is that molecular details are beginning to merge with physiological responses. In other words, we are beginning to understand precisely how membranes work. This textbook is appropriate for upper-level undergraduate or beginning graduate students. Readers should have previous or concurrent coursework in biochemistry; prior studies in elementary physiology would be helpful. I have found that the presentation of topics in this book is appropriate for students of biology, biochemistry, biophysics and physiology, chemistry, and medicine. This book will be useful in courses focusing on membranes and as a supplementary text in biochemistry courses. Professionals will also find this to be a useful resource book for their personal libraries. |
Зміст
I | 1 |
IV | 2 |
V | 4 |
VI | 5 |
VII | 7 |
VIII | 9 |
IX | 10 |
X | 11 |
LXXXIV | 191 |
LXXXV | 195 |
LXXXVI | 200 |
LXXXVII | 202 |
LXXXVIII | 205 |
LXXXIX | 210 |
XC | 216 |
XCI | 219 |
XI | 14 |
XII | 15 |
XIII | 17 |
XIV | 18 |
XV | 20 |
XVI | 21 |
XVII | 22 |
XVIII | 26 |
XX | 33 |
XXI | 35 |
XXII | 36 |
XXIII | 38 |
XXIV | 43 |
XXV | 44 |
XXVI | 46 |
XXVII | 51 |
XXVIII | 52 |
XXX | 55 |
XXXI | 57 |
XXXII | 58 |
XXXIII | 59 |
XXXIV | 60 |
XXXVI | 64 |
XXXVII | 81 |
XXXVIII | 85 |
XXXIX | 87 |
XL | 88 |
XLI | 89 |
XLII | 93 |
XLIII | 96 |
XLIV | 97 |
XLV | 99 |
XLVI | 100 |
XLVII | 101 |
XLVIII | 102 |
L | 103 |
LI | 106 |
LII | 108 |
LIII | 109 |
LV | 111 |
LVI | 113 |
LVIII | 115 |
LIX | 117 |
LX | 123 |
LXI | 124 |
LXIII | 126 |
LXIV | 127 |
LXV | 129 |
LXVII | 131 |
LXVIII | 148 |
LXIX | 164 |
LXXI | 167 |
LXXII | 170 |
LXXIV | 171 |
LXXV | 174 |
LXXVI | 175 |
LXXVII | 178 |
LXXIX | 179 |
LXXX | 180 |
LXXXI | 181 |
LXXXIII | 189 |
XCII | 223 |
XCIII | 224 |
XCIV | 226 |
XCV | 227 |
XCVI | 228 |
XCVII | 229 |
XCVIII | 232 |
XCIX | 234 |
CI | 235 |
CIII | 236 |
CV | 238 |
CVI | 239 |
CVII | 240 |
CVIII | 241 |
CIX | 244 |
CX | 251 |
CXI | 254 |
CXIII | 256 |
CXIV | 258 |
CXV | 262 |
CXVI | 264 |
CXVII | 270 |
CXVIII | 273 |
CXIX | 274 |
CXX | 277 |
CXXI | 278 |
CXXII | 282 |
CXXIII | 284 |
CXXIV | 286 |
CXXV | 287 |
CXXVI | 297 |
CXXVII | 298 |
CXXVIII | 302 |
CXXX | 309 |
CXXXI | 315 |
CXXXII | 323 |
CXXXIII | 327 |
CXXXIV | 330 |
CXXXVII | 332 |
CXXXVIII | 333 |
CXXXIX | 334 |
CXL | 336 |
CXLI | 337 |
CXLII | 339 |
CXLIII | 341 |
CXLIV | 343 |
CXLV | 353 |
CXLVI | 358 |
CXLVII | 359 |
CXLVIII | 362 |
CXLIX | 363 |
CLI | 364 |
CLII | 365 |
CLIII | 367 |
CLIV | 368 |
CLV | 371 |
CLVII | 373 |
374 | |
379 | |
Загальні терміни та фрази
Acad actin adenylyl cyclase affinity amino acid amino acid sequence Annu antibodies antigens B-adrenergic receptor bacteria bacteriorhodopsin band Bchl bilayer Biochem Biophys carbohydrate Cell Biol cell surface cell's chain channel Chem cis face clathrin coli complex components covalently cytochrome cytoplasmic cytosolic deduced amino acid diffusion electron microscopy electron transport encodes energy enzyme erythrocyte eukaryotes extracellular fatty acids Figure filaments function fusion G protein gene glucose glycophorin glycoprotein glycosylation Golgi gradient hydrophobic insulin receptor integral membrane proteins interactions intramembrane ions LHCII ligand ligand binding light-harvesting lipid mechanism membrane-bound microtubules mitochondrial molecular molecules mutant Natl oligosaccharide oncogenes outer membrane oxidase panel participate pathway peptide permease phospholipid phosphorylation photosynthetic reaction center physiological plasma membrane polypeptide positive charges Proc proton proton potential reconstituted reductase region regulated residues role secretory Section shown structure studies subunits synthesis trans face translocation transmembrane domains trigger tumor tyrosyl kinase vesicles
Популярні уривки
Сторінка 375 - Sherr CJ, Rettenmier CW, Sacca R, Roussel MF, Look AT, Stanley ER: The c-fms proto-oncogene product is related to the receptor for the mononuclear phagocyte growth factor, CSF-1 . Cell 41:665, 1985 5.