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19 - Biological networks and network motifs

from PART III - NETWORK FUNCTION: DYNAMICS AND APPLICATIONS

Published online by Cambridge University Press:  05 August 2013

Reuven Cohen
Affiliation:
Bar-Ilan University, Israel
Shlomo Havlin
Affiliation:
Bar-Ilan University, Israel
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Summary

One of the most important classes of network studied in the literature is biological networks. This class contains a large variety of naturally occurring networks, formed by the long course of evolution. The human (and animal) body contains a large number of networks, some of which occur in real space, such as the networks of blood vessels, the bronchi, and the nerve system. These networks have been studied for a long time, and many of them are known to be fractal objects, see, for example [BH94, BH96, WBE97]. Another class of network, on which we will focus in this chapter, is logical. These are the networks of gene–gene, gene–protein, and protein–protein interactions. A survey of networks in biology can be found, for example, in [BO04].

In the cell, the genetic information is stored in DNA strands sitting in the cell's nucleus. To pronounce the genetic information DNA is transcribed (copied) to messenger RNA by a protein called RNA polymerase. The messenger RNA is then translated by ribosomes, which form amino acids according to the information in the RNA. Every three letter sequence represents a single amino acid from the twenty amino acids existing in humans and most other known organisms. A chain of amino acids is then created from a sequence of letters and forms a protein. The protein folds into a minimal energy configuration, whose shape determines most of its biological function. The created proteins then interact with the genetic information in several ways.

Type
Chapter
Information
Complex Networks
Structure, Robustness and Function
, pp. 200 - 206
Publisher: Cambridge University Press
Print publication year: 2010

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