Gnaiger 1977 Invertebrate anoxibiosis: Difference between revisions
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{{Publication | {{Publication | ||
|title=Gnaiger E (1977) Thermodynamic considerations of invertebrate anoxibiosis. In: Applications of calorimetry in life sciences. Lamprecht I, Schaarschmidt B (eds), de Gruyter, Berlin:281-303. | |title=Gnaiger E (1977) Thermodynamic considerations of invertebrate anoxibiosis. In: Applications of calorimetry in life sciences. Lamprecht I, Schaarschmidt B (eds), de Gruyter, Berlin:281-303. | ||
|info=[[File:PDF.jpg|100px|link=https://wiki.oroboros.at/images/ | |info=[[File:PDF.jpg|100px|link=https://wiki.oroboros.at/images/e/e0/Gnaiger_1977_Invertebrate_anoxibiosis.pdf |Bioblast pdf]] | ||
|authors=Gnaiger Erich | |authors=Gnaiger Erich | ||
|year=1977 | |year=1977 | ||
|journal=de Gruyter | |journal=de Gruyter | ||
|abstract=[[File:Gnaiger 1977 | |abstract=[[File:Gnaiger 1977 Invertebrate anoxibiosis Fig1.jpg|right|240px]] New insight into the biochemical mechanism of invertebrate anoxibiosis made possible the calculation of the free-energy changes associated with the generation of high-energy bonds in nucleoside triphosphates (ATP, GTP, ITP) under anoxic conditions. The values obtained are compared with thermodynamic data of aerobic and fermentative energy production, and indicate a selection towards increased energetic efficiency of biochemical pathways leading to less toxic and readily excretable end products in anoxibiotic invertebrates. The thermodynamic model is mainly based upon a metabolic scheme elaborated on intertidal bivalves by de Zwaan et al, benthic oligochaetes and fresh-water bivalves.ย It may provide a general hypothesis for the energetic processes which operate in a variety of ecological and taxonomic groups of anoxibiotic animals. | ||
|mipnetlab=AT Innsbruck Gnaiger E | |mipnetlab=AT Innsbruck Gnaiger E | ||
}} | }} |
Latest revision as of 16:42, 22 July 2023
Gnaiger E (1977) Thermodynamic considerations of invertebrate anoxibiosis. In: Applications of calorimetry in life sciences. Lamprecht I, Schaarschmidt B (eds), de Gruyter, Berlin:281-303. |
Gnaiger Erich (1977) de Gruyter
Abstract:
New insight into the biochemical mechanism of invertebrate anoxibiosis made possible the calculation of the free-energy changes associated with the generation of high-energy bonds in nucleoside triphosphates (ATP, GTP, ITP) under anoxic conditions. The values obtained are compared with thermodynamic data of aerobic and fermentative energy production, and indicate a selection towards increased energetic efficiency of biochemical pathways leading to less toxic and readily excretable end products in anoxibiotic invertebrates. The thermodynamic model is mainly based upon a metabolic scheme elaborated on intertidal bivalves by de Zwaan et al, benthic oligochaetes and fresh-water bivalves. It may provide a general hypothesis for the energetic processes which operate in a variety of ecological and taxonomic groups of anoxibiotic animals.
โข O2k-Network Lab: AT Innsbruck Gnaiger E
Labels: MiParea: Respiration, Comparative MiP;environmental MiP
Stress:Ischemia-reperfusion Organism: Annelids, Molluscs
Preparation: Intact organism
Regulation: Aerobic glycolysis, ATP, Coupling efficiency;uncoupling
Microcalorimetry, Malic enzyme, MitoFit2022rTCA