|
|
|
|
Leader |
LDR
|
|
pam i |
Control # |
1
|
|
2020055277 |
Control # Id |
3
|
|
DLC |
Date |
5
|
|
20240109133200.0 |
Fixed Data |
8
|
|
201208t20222021enkaf b 001 0 eng |
LC Card |
10
|
|
$a 2020055277 |
ISBN |
20
|
|
$a9781107056398$q(hardback) |
ISBN |
20
|
|
$a9781107697522$q(paperback) |
ISBN |
20
|
|
$z9781107297241$q(epub) |
Obsolete |
39
|
|
$a336091$cTLC |
Cat. Source |
40
|
|
$aDNLM/DLC$beng$erda$cDLC$dGCG |
Authen. Ctr. |
42
|
|
$apcc |
LC Call |
50
|
00 |
$aQP624$b.T73 2022 |
NLM Call # |
60
|
00 |
$aQU 58.5 |
Dewey Class |
82
|
00 |
$a572.8/6$223 |
ME:Pers Name |
100
|
1 |
$aTravers, A. A.$q(Andrew Arthur)$eauthor. |
Title |
245
|
10 |
$aWhy DNA? :$bfrom DNA sequence to biological complexity /$cAndrew Travers. |
Tag 264 |
264
|
1 |
$aCambridge, United Kingdom ;$aNew York, NY :$bCambridge University Press,$c2022. |
Tag 264 |
264
|
4 |
$cÃ2021 |
Phys Descrpt |
300
|
|
$axi, 211 pages, 8 unnumbered pages of plates :$billustrations (some color) ;$c24 cm |
Tag 336 |
336
|
|
$atext$btxt$2rdacontent |
Tag 337 |
337
|
|
$aunmediated$bn$2rdamedia |
Tag 338 |
338
|
|
$avolume$bnc$2rdacarrier |
Note:Bibliog |
504
|
|
$aIncludes bibliographical references (pages 192-208) and index. |
Note:Content |
505
|
0 |
$aThe perennial question -- The nature of information : information, complexity and entropy -- DNA : the molecule -- The evolution of biological complexity -- Cooperating genomes -- DNA, information and complexity -- Origins -- The complexity of societies -- Why DNA : and not RNA? |
Abstract |
520
|
|
$a"Information is central to the evolution of biological complexity, a physical system relying on a continuous supply of energy. Biology provides superb examples of the consequent Darwinian selection of mechanisms for efficient energy utilisation. Genetic information, underpinned by the Watson-Crick base-pairing rules is largely encoded by DNA, a molecule uniquely adapted to its roles in information storage and utilisation.This volume addresses two fundamental questions. Firstly, what properties of the molecule have enabled it to become the predominant genetic material in the biological world today and secondly, to what extent have the informational properties of the molecule contributed to the expansion of biological diversity and the stability of ecosystems. The author argues that bringing these two seemingly unrelated topics together enables Schrödinger's What is Life?, published before the structure of DNA was known, to be revisited and his ideas examined in the context of our current biological understanding."--$cProvided by publisher. |
Subj:Topical |
650
|
0 |
$aDNA. |
Subj:Topical |
650
|
0 |
$aEvolution (Biology) |
Subj:Pers |
600
|
10 |
$aSchrödinger, Erwin,$d1887-1961.$tWhat is life? |
Subj:Topical |
650
|
0 |
$aBiodiversity. |
Subj:Topical |
650
|
0 |
$aBiocomplexity. |
Subj:Topical |
650
|
0 |
$aLife$xOrigin. |