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Difference between revisions of "Gnaiger 1977 Invertebrate anoxibiosis"

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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=[[Media:Gnaiger 1977 Invertrebrate anoxibiosis.pdf |'''Bioblast Access''']]
|info=[[Media:Gnaiger 1977 Invertrebrate anoxibiosis.pdf |'''Bioblast pdf''']]
|authors=Gnaiger E
|authors=Gnaiger E
|year=1977
|year=1977
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|additional=Microcalorimetry, Malic enzyme
|additional=Microcalorimetry, Malic enzyme
}}
}}
[[Image:The world as a laboratory.jpg|left|120px|link=http://wiki.oroboros.at/index.php/OROBOROS_Events#Expeditions_-_science_and_adventure|Science and adventure]]
* [[Malic enzyme]]
* [[Malic enzyme]]

Revision as of 19:32, 9 December 2015

Publications in the MiPMap
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.

Β» Bioblast pdf

Gnaiger E (1977) de Gruyter

Abstract:

Gnaiger 1977 Invertebrate anoxibiosis Fig1.jpg

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.


β€’ O2k-Network Lab: AT Innsbruck Gnaiger E


Labels: MiParea: Respiration, Comparative MiP;environmental MiP 

Stress:Ischemia-reperfusion 


Preparation: Intact organism 

Regulation: Aerobic glycolysis, ATP, Coupling efficiency;uncoupling 



Microcalorimetry, Malic enzyme 

Science and adventure