TY - JOUR N2 - A gigantic amounts of data and information on molecules that constitute the very complex cell machinery have been collected, classified and stored in data banks. Although we posses enormous amount of knowledge about the properties and functions of thousands of molecular entities, we are still far from understanding how they do work in a living cell. It is clear now that these molecules (genes, proteins) are not autonomous, that there is no direct linear relation between genotype and phenotype, and that the majority of functions are carried and executed by concerted molecular activity, and that the majority of diseases are multifactorial. A basic property of the matter in a living cell (both normal and pathologic) is an interaction between variety of macromolecules, mainly proteins, genes (DNA) etc. In a process of self-organization they are able to form an active molecular biologic system – a complex, labile and dynamic network which integrity is secured by non-covalent bounds. In this essay some basic properties of network structure and the universal rules that govern them are described. Network or system biology is promising new research approach in biology and medicine. L1 - http://journals.pan.pl/Content/91678/mainfile.pdf L2 - http://journals.pan.pl/Content/91678 PY - 2011 IS - No 1 EP - 84 KW - systems biology KW - reductionism KW - structure of networks KW - graph A1 - Chorąży, Mieczysław PB - Biuro Upowszechniania i Promocji Nauki PAN DA - 2011 T1 - An introduction to systems biology SP - 59 UR - http://journals.pan.pl/dlibra/publication/edition/91678 T2 - Nauka ER -