作者:
DOI: 10.1007/978-4-431-55212-3
关键词: Biochemistry 、 Biology 、 Hypusine 、 Polyamine transport 、 Polyamine Catabolism 、 Spermidine 、 Polyamine homeostasis 、 Ornithine decarboxylase antizyme 、 Spermine 、 Polyamine
摘要: PART I BIOSYNTHESIS OF POLYAMINES,- 1 Biosynthesis of Polyamines in Eukaryotes, Archaea, and Bacteria.- 2 Long-Chain Branched Thermophilic Microbes.- 3 Regulation Diversity Polyamine Plants.- II CATABOLISM POLYAMINES.- 4 Catabolism Prokaryotes.- 5 Mammalian Catabolism.- 6 III POLYAMINE HOMEOSTASIS.- 7 Antizyme.- 8 Bacterial 9 Homeostasis Plants: The Role(s) Evolutionarily Conserved Upstream ORFs.- IV ROLES POLYAMINES IN GROWTH.- 10 Role the Spermidine as a Precursor for Hypusine Modification eIF5A.- 11 Modulon: Genes Encoding Proteins Whose Synthesis Is Enhanced by at Level Translation.- 12 Protein Thermophiles: Effect on Nucleic Acid Maintenance Gene Expression.- V SURVIVAL.- 13 Plant Stress Response.- VI TRANSPORTERS.- 14 Recent Advances Transport Systems.- 15 Systems VII POLYAMINE-DERIVED SECONDARY METABOLITES.- 16 Polyamine-Derived Alkaloids Molecular Elucidation Biosynthesis.- 17 Toxins from Spiders Wasps.- VIII ACTION ON ION CHANNELS.- 18 Block Inwardly Rectifying Potassium (Kir) Channels.- 19 Action Ion Channels Pumps.- 20 N-Methyl-d-Aspartate Receptors Spermine Ifenprodil.- IX AND LONGEVITY.- 21 Longevity Mammals.- 22 Interactions with Hormones: Crosstalk Several Levels.- X DIAGNOSIS DRUG TARGETS.- 23 N1, N12-Diacetylspermine Human Urine: Performance Tumor Marker, Quantification, Production, Excretion.- 24 Targeting Biosynthetic Pathway Parasitic Protozoa.