.

0 (hodnocen0 x )

BK

Praha : Academia, 1984

114 s. ; 24 cm

Rozpravy ČSAV. Řada matematických a přírodních věd ; Sešit 2

000015061

Preface 5 // 1 Introduction 11 // 1.1 Formularies 11 // 1.2 Codasyl nets 12 // 2 Description of operation logic 15 // 2.1 Definition of operation logic 15 // 2.2 Data sets of general knowledge database 17 // 2.3 Subgraphs of general knowledge database 20 // 2.4 A universal method for system description 21 // 2.5 Semantic language 23 // 3 Characteristics of universe 30 // 3.1 History of universe as program execution 30 // 3.2 List of chemical compounds and processes 32 // 4 Axioms about chemical processes 34 // 4.1 Radiation syntheses 34 // 4.2 Radiation decompositions 35 // 4.3 Special radiation processes 36 // 4.4 Enzymatic syntheses 37 // 4.5 Enzymatic decompositions 38 // 4.6 Special chemical processes 39 // 4.7 Oxygen decompositions 43 // 4.8 Energy inputs and outputs 44 // 4.9 Catchings by proteins of chemical compounds 44 // 4.10 Proteins activations and deactivations 46 // 4.11 Weak binding installations and destructions 47 // 5 How to receive chemical compounds and energy 48 // 5.1 How to receive glucose 48 // 5.2 How to receive ribose 49 // 5.3 How to receive deoxyribose 49 // 5.4 How to receive starch 50 // 5.5 How to receive cellulose 51 // 5.6 How to receive aminoacids 51 // 5.7 How to receive proteins 52 // 5.8 How to receive nucleotides 53 // 5.9 How to receive chitin 54 // 5.10 How to receive ADP 54 // 5.11 How to receive ATP 55 // 5.12 How to receive RNA’s 55 // 5.13 How to receive DNA’s 56 // 5.14 How to supply energy 58 // 5.15 How to store energy 59 //

6 Self-reproduction systems 61 // 6.1 How to realize self-reproduction processes 61 // 6.2 How to dispatch processes in self-reproduction system 63 // 7 Live individuals 65 // 7.1 Organic individuals 65 // 7.2 Protokaryotic and eukaryotic individuals 67 // 7.3 Sexuality 72 // 7.4 Multicellularity 75 // 8 Qualitative information processing of subjects 78 // 8.1 Consciousness 78 // 8.2 Semaphore registers of subject 84 // 8.3 Clause 91 // 9 Natural selection genetic learning process 93 // 9.1 Additional axioms about chemical processes 93 // 9.2 From inorganic solution to solution with randomly made simple organic compounds 95 // 9.3 From solution with randomly made simple organic compounds to solution with ribosomal // DNA-RNA-PROTEIN transcriptions and with starch energy storage 95 // 9.4 From solution with ribosomal DNA-RNA-PROTEIN transcriptions and with starch // energy storage to protobiontal individual 96 // 9.5 Semantic analysis of protobiontal DNA 97 // 9.6 From protobiontal individual to bacterial individual 102 // 9.7 From bacterial individual to cyanophytal individual 102 // 9.8 From bacterial individual to mitochondrial individual 103 // 9.9 From bacterial individual to preprotozoal individual 104 // 9.10 From preprotozoal individual to protozoal individual by symbiotic inclusion of mitochondrial individual 104 // 9.11 From protozoal individual to algal individual by symbiotic inclusion of cyanophytal individual 105 // 9.12 From protozoal individual to animal individual 106 // 9.13 From algal individual to plant individual 107 // 9.14 From animal individual to human individual 107 // References // Index 114

(OCoLC)14541656

cnb000008854