The Novartis Foundation Series is a popular collection of the proceedings from Novartis Foundation Symposia, in which groups of leading scientists from a range of topics across biology, chemistry and medicine assembled to present papers and discuss results. The Novartis Foundation, originally known as the Ciba Foundation, is well known to scientists and clinicians around the world.
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ISBN-13
978-0-470-71846-9 (9780470718469)
Schweitzer Klassifikation
1 - Brush border membranes [Seite 5]
1.1 - Contents [Seite 7]
1.1.1 - Chairman's introduction [Seite 13]
1.1.2 - Introductory remarks on the brush border [Seite 15]
1.1.3 - Microvillar endopeptidase, an enzyme with special topological features and a wide distribution [Seite 24]
1.1.3.1 - Discussion [Seite 37]
1.1.4 - Aminopeptidases and proteolipids of intestinal brush border [Seite 46]
1.1.4.1 - Discussion [Seite 56]
1.1.5 - Structure of microvillar enzymes in different phases of their life cycles [Seite 62]
1.1.5.1 - Discussion [Seite 81]
1.1.6 - Specific labelling of the hydrophobic domain of rat renal y-glutamyltransferase [Seite 85]
1.1.6.1 - Discussion [Seite 95]
1.1.7 - Biosynthesis and assem- bly of the largest and major intrinsic polypeptide of the small intestinal brush borders [Seite 104]
1.1.7.1 - Discussion [Seite 119]
1.1.8 - Use of monoclonal antibodies in the study of intestinal structure and function [Seite 125]
1.1.8.1 - Discussion [Seite 139]
1.1.9 - Biosynthesis and transport of plasma membrane glyco- proteins in the rat intestinal epithelial cell: studies with sucrase- isomaltase [Seite 144]
1.1.9.1 - Discussion [Seite 159]
1.1.10 - GENERAL DISCUSSION I Biosynthesis and assembly of brush border proteins: (i) some co-translational models for protein insertion into membranes [Seite 162]
1.1.11 - molecular sizes of brush border enzymes during assembly [Seite 168]
1.1.12 - Distribution of enteropeptidase and aminopeptidase to non-brush border sites [Seite 170]
1.1.13 - General functions of the enterocyte [Seite 171]
1.1.14 - Molecular architecture of the microvillus cytoskeleton [Seite 176]
1.1.14.1 - Discussion [Seite 187]
1.1.15 - Structure of human placental microvilli [Seite 192]
1.1.15.1 - Discussion [Seite 204]
1.1.16 - Regulation of cytoskeletal structure and contractility in the brush border [Seite 207]
1.1.16.1 - Discussion [Seite 222]
1.1.17 - Characterization of membrane glycoproteins involved in attachment of microfilaments to the microvillar membrane [Seite 228]
1.1.17.1 - Discussion [Seite 242]
1.1.18 - Structural and functional relationship between the membrane and the cytoskeleton in brush border microvilli [Seite 245]
1.1.18.1 - Discussion [Seite 255]
1.1.19 - GENERAL DISCUSSION II A pathological condition due to congenital disorganization of the brush border [Seite 257]
1.1.20 - Conformational changes in the a-subunit, and cation transport by Na+, K+-ATPase [Seite 265]
1.1.20.1 - Discussion [Seite 281]
1.1.21 - Properties of immunoglobulin G-Fc receptors from neonatal rat intestinal brush borders [Seite 285]
1.1.22 - Immunoglobulin G receptors of intestinal brush borders from neonatal rats [Seite 299]
1.1.23 - Discussion after the preceding two papers [Seite 309]
1.1.24 - Cotransport systems in the brush border membrane of the human placenta [Seite 312]
1.1.24.1 - Discussion [Seite 322]
1.1.25 - GENERAL DISCUSSION III Cytoskeleton and membrane-cytoskeleton interactions [Seite 327]
1.1.26 - The importance of structure for understanding the biosynthetic process [Seite 331]
1.1.27 - Future advances in study of brush border cytoskeleton [Seite 332]
1.1.28 - Photo-affinity labelling to identify components of the neutral amino acid carrier in the intestinal microvillar membrane [Seite 334]
1.1.29 - Chairman's closing remarks [Seite 339]
1.1.30 - Index to contributors [Seite 341]
1.1.31 - Subject index [Seite 343]
