Author(s): Timofeyev M.A. | Kirichenko K.A. | Rokhin A.V. | Bedulina D.S. | Chernyshova K.P. | Pobezhimova T.P.
Journal: Journal of stress physiology & biochemistry
ISSN 1997-0838
Volume: 2;
Issue: 1;
Start page: 56;
Date: 2006;
VIEW PDF
DOWNLOAD PDF 
Original page
Keywords: Bailkal | hypoxia | anaerobiosis | amphipoda | oxygen
ABSTRACT
The data confirming the ability of Baikalian endemic species Eulimnogammarus vittatus (Dyb.) and E. verrucosus (Dyb.) to activate anaerobic glycolysis under hypoxia are presented. The differences in the degree and the rate of lactic acid accumulation and remetabolisation in returning to aerobiosis are noted in the species concerned. On the example of E. vittatus the ability of Baikalian endemics to activate anaerobic lipolysis and process of anaerobic formation of succinate is shown
Journal: Journal of stress physiology & biochemistry
ISSN 1997-0838
Volume: 2;
Issue: 1;
Start page: 56;
Date: 2006;
VIEW PDF
DOWNLOAD PDF Original pageKeywords: Bailkal | hypoxia | anaerobiosis | amphipoda | oxygen
ABSTRACT
The data confirming the ability of Baikalian endemic species Eulimnogammarus vittatus (Dyb.) and E. verrucosus (Dyb.) to activate anaerobic glycolysis under hypoxia are presented. The differences in the degree and the rate of lactic acid accumulation and remetabolisation in returning to aerobiosis are noted in the species concerned. On the example of E. vittatus the ability of Baikalian endemics to activate anaerobic lipolysis and process of anaerobic formation of succinate is shown
