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1. |
Membrane Biochemistry and Chemical Hepatocarcinogenesis |
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Critical Reviews in Biochemistry and Molecular Biology,
Volume 27,
Issue 1-2,
1992,
Page 1-55
ErikssonLennart C.,
AnderssonGuran N.,
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摘要:
AbstractBiochemical membrane alterations appearing during the process of chemical carcinogenesis are described. Emphasis is put on membrane composition, structure, and biogenesis. In this presentation the knowledge gained from experimental studies of liver and skin in the process of cancer development is acknowledged. Important biochemical changes have been reported in lipid composition, fatty acid saturation, constitutional enzyme expression, receptor turnover and oligomerization. Functional consequences of the altered membrane structure is discussed within the concepts of regulation of cell proliferation, regulation of membrane receptor expression, redox control, signal transduction, drug metabolism, and multidrug resistance. Data from malignant tumours and normal tissue are addressed to evaluate the importance of the alterations for the process and for the eventual malignant transformation.
ISSN:1040-9238
DOI:10.3109/10409239209082558
出版商:Taylor&Francis
年代:1992
数据来源: Taylor
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2. |
Mucin-Type Glycoproteins |
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Critical Reviews in Biochemistry and Molecular Biology,
Volume 27,
Issue 1-2,
1992,
Page 57-92
StrousGer J.,
DekkerJan,
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摘要:
AbstractConsiderable advances have been made in recent years in our understanding of the biochemistry of mucin-type glycoproteins. This class of compounds is characterized mainly by a high level of O-linked oligosaccharides. Initially, the glycoproteins were solely known as the major constituents of mucus. Recent studies have shown that mucins from the gastrointestinal tract, lungs, salivary glands, sweat glands, breast, and tumor cells are structurally related to high-molecular-weight glycoproteins, which are produced by epithelial cells as membrane proteins. During mucin synthesis, an orchestrated sequence of events results in giant molecules of Mr4 to 6·106, which are stored in mucous granules until secretion. Once secreted, mucin forms a barrier, not only to protect the delicate epithelial cells against the extracellular environment, but also to select substances for binding and uptake by these epithelia. This review is designed to critically examine relations between structure and function of the different compounds categorized as mucin glycoproteins.
ISSN:1040-9238
DOI:10.3109/10409239209082559
出版商:Taylor&Francis
年代:1992
数据来源: Taylor
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3. |
Basement Membrane Proteins: Structure, Assembly, and Cellular Interactions |
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Critical Reviews in Biochemistry and Molecular Biology,
Volume 27,
Issue 1-2,
1992,
Page 93-127
MMats Paulsson,
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摘要:
AbstractBasement membranes are thin layers of a specialized extracellular matrix that form the supporting structure on which epithelial and endothelial cells grow, and that surround muscle and fat cells and the Schwann cells of peripheral nerves. One common denominator is that they are always in close apposition to cells, and it has been well demonstrated that basement membranes do not only provide a mechanical support and divide tissues into compartments, but also influence cellular behavior. The major molecular constituents of basement membranes are collagen IV, laminin-entactin/nidogen complexes, and proteoglycans. Collagen IV provides a scaffold for the other structural macromolecules by forming a network via interactions between specialized N-and C-terminal domains. Laminin-entactin/nidogen complexes self-associate into less-ordered aggregates. These two molecular assemblies appear to be interconnected, presumably via binding sites on the entactin/nidogen molecule. In addition, proteoglycans are anchored into the membrane by an unknown mechanism, providing clusters of negatively charged groups. Specialization of different basement membranes is achieved through the presence of tissue-specific isoforms of laminin and collagen IV and of particular proteoglycan populations, by differences in assembly between different membranes, and by the presence of accessory proteins in some specialized basement membranes. Many cellular responses to basement membrane proteins are mediated by members of the integrin class of transmembrane receptors. On the intracellular side some of these signals are transmitted to the cytoskeleton, and result in an influence on cellular behavior with respect to adhesion, shape, migration, proliferation, and differentiation. Phosphorylation of integrins plays a role in modulating their activity, and they may therefore be a part of a more complex signaling system.
ISSN:1040-9238
DOI:10.3109/10409239209082560
出版商:Taylor&Francis
年代:1992
数据来源: Taylor
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4. |
Eukaryotic DNA Replication |
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Critical Reviews in Biochemistry and Molecular Biology,
Volume 27,
Issue 1-2,
1992,
Page 129-155
SoAntero G.,
DowneyKathleen M.,
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摘要:
AbstractThe past decade has witnessed an exciting evolution in our understanding of eukaryotic DNA replication at the molecular level. Progress has been particularly rapid within the last few years due to the convergence of research on a variety of cell types, from yeast to human, encompassing disciplines ranging from clinical immunology to the molecular biology of viruses. New eukaryotic DNA replicases and accessory proteins have been purified and characterized, and some have been cloned and sequenced.In vitrosystems for the replication of viral DNA have been developed, allowing the identification and purification of several mammalian replication proteins. In this review we focus on DNA polymerases alpha and delta and the polymerase accessory proteins, their physical and functional properties, as well as their roles in eukaryotic DNA replication.
ISSN:1040-9238
DOI:10.3109/10409239209082561
出版商:Taylor&Francis
年代:1992
数据来源: Taylor
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