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Selbstorganisation biologischer Strukturen (1975)

Holmes, K. C.

Springer

Journal of molecular medicine 53 (1975), S. 997-1005

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ISSN: 1432-1440

Keywords: Hierarchical organization ; macromolecular assemblies ; symmetry viruses ; embryology ; molecular pathology ; Hierarchischer Aufbau ; Macromolecular assemblies ; Symmetrie ; Viren ; Embryologie ; Molekularpathologie

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Description / Table of Contents: Zusammenfassung Bei Untersuchungen von makromolekularen Strukturen spielten Viren eine bedeutende Rolle. Struktur und Funktion in lebenden Systemen sind hierarchisch angeordnet. Ein wichtiges Ziel der Biologie ist die Herstellung einer Wechselbeziehung zwischen der Strukturhierarchie und der Kontrolle der Montage und folglich mit dem embryologischen Programm des Organismus.

Notes: Summary Viruses played an important role in analysing macromolecular structures. Structure and function in living systems are arranged hierarchically. An important purpose of biology is to describe the correlation between the structural hierarchy and the observed assembly and to analyse the embryological program of the organism.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01614301

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Protein-RNA interactions during TMV assembly (1979)

Holmes, K. C.

New York, N.Y. : Wiley-Blackwell

Journal of Supramolecular Structure 12 (1979), S. 305-320

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ISSN: 0091-7419

Keywords: tobacco mosaic virus ; structure ; RNA-binding site ; assembly ; protein-nucleic acid interactions ; Life Sciences ; Molecular Cell Biology

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Biology , Chemistry and Pharmacology , Medicine

Notes: A review of the structural studies of tobacco mosaic virus (TMV) is given. TMV is essentially a flat helical microcrystal with 16 1/3 subunits per turn. A single strand of RNA runs along the helix and is deeply embedded in the protein. The virus particles form oriented gels from which high-resolution X-ray fiber diffraction data can be obtained. This may be interpreted by the use of six heavy-atom derivatives to give an electron density map at 0.4 nm resolution from which the RNA configuration and the form of the inner part of the protein subunit may be determined. In addition, the protein subunits form a stable 17-fold two-layered disk which is involved in virus assembly and which crystallizes. By the use of noncrystallographic symmetry and a single heavy-atom derivative, it has been possible to solve the structure of the double disk to 0.28 nm resolution. In this structure one sees that an important structural role is played by four alpha-helices, one of which (the LR helix) appears to form the main binding site for the RNA. The main components of the binding site appear to be hydrophobic interactions with the bases, hydrogen bonds between aspartate groups and the sugars, and arginine salt bridges to the phosphate groups. The binding site is between two turns of the virus helix or between the turns of the double disk. In the disk, the region proximal to the RNA binding site is in a random coil until the RNA binds, whereupon the 24 residues involved build a well-defined structure, thereby encapsulating the RNA.

Additional Material: 10 Ill.