000			02282cam0a2200433 4500
001			13871
009			109442768
003			http://www.sudoc.fr/109442768
005			20250630092354.0
010			_a9781584886426 _bbr.
010			_a1-58488-642-0 _bbr.
010			_a978-1-138-44202-3 _brel.
073		1	_a9781584886426
090			_a13871
099			_tOUVR _zALEX27089
100			_a20061010h20072007k y0frey50 ba
101	0		_aeng _2639-2
102			_aUS _aGB
105			_aaf a 001yy
106			_ar
181			_6z01 _ctxt _2rdacontent
181		1	_6z01 _ai# _bxxxe##
182			_6z01 _cn _2rdamedia
182		1	_6z01 _an
183		1	_6z01 _anga _2RDAfrCarrier
200	1		_a˜An œintroduction to systems biology _edesign principles of biological circuits _fUri Alon
214		0	_aBoca Raton (Flo.) [etc.] _cChapman & Hall/CRC
214		4	_dC 2007
215			_a1 volume (xvi-301 p.-[4] p. de pl.) _cillustrations en noir et en couleur, couverture illustrée _d26 cm
225	2		_aChapman & Hall/CRC mathematical and computational biology series _vvolume 10
320			_aBibliographie p. 3 et p. 271-293. Glossaire. Index
330			_aThorough and accessible, this book presents the design principles of biological systems, and highlights the recurring circuit elements that make up biological networks. It provides a simple mathematical framework which can be used to understand and even design biological circuits. The text avoids specialist terms, focusing instead on several well-studied biological systems that concisely demonstrate key principles. An Introduction to Systems Biology: Design Principles of Biological Circuits builds a solid foundation for the intuitive understanding of general principles. It encourages the reader to ask why a system is designed in a particular way and then proceeds to answer with simplified models
410			_010214642X _tChapman & Hall/CRC mathematical and computational biology series (Print) _x2379-5417 _vvolume 10
606			_3069395721 _aBioinformatique _2rameau
606			_3027411966 _aSystèmes biologiques _3027551385 _xModèles mathématiques _2rameau
606			_3040837777 _aBiologie informatique _2fmesh
676			_a570 _v22
686			_aJ.3 _2acm
700		1	_3110150805 _aAlon _bUri _4070