|1.||Uribe-Carvajal, S: 1 article (08/2012)|
|2.||Martinez-Cruz, O: 1 article (08/2012)|
|3.||Calderon de la Barca, A M: 1 article (08/2012)|
|4.||Muhlia-Almazan, A: 1 article (08/2012)|
|5.||Hirai, Shun: 1 article (01/2007)|
|6.||Okada, Shigeru: 1 article (01/2007)|
|7.||Abe, Hiroki: 1 article (01/2007)|
|8.||van Aardt, W J: 1 article (10/2005)|
|9.||Ahern, M D: 1 article (10/2005)|
|10.||Morris, S: 1 article (10/2005)|
07/01/1991 - "PCr improved postischemic contractile recovery of hearts subjected to ischemia in perfusion media containing 0.5 and 1.2 mmol/l Ca2+. Phosphoarginine, a structural analogue of PCr which possesses Ca(2+)-binding property similar to that of PCr did not exert any protective effect on ischemic myocardium. "
01/01/2007 - "This is consistent with the prompt replenishment of phosphoarginine stores during recovery from hypoxia."
01/01/2007 - "In response to hypoxia at PO(2) 1.3-1.7 mg/L for 6 h, the kuruma prawn Marsupenaeus (Penaeus) japonicus showed a dramatic decrease in phosphoarginine storage in muscle, with normal levels restored during 4-h post-hypoxic recovery. "
08/01/2012 - "Thus, during hypoxia shrimp are able to maintain ATP amounts probably by using some other energy sources as phosphoarginine when an acute lack of energy occurs. "
08/01/1984 - "Anoxia produced an expected decrease in peak intensities of ATP and arginine phosphate while the peak of intracellular Pi was enhanced and shifted to indicate intracellular acidification during anoxia. "
01/01/2007 - "These data indicate that phosphoarginine works in muscle as an ATP buffer during hypoxia and glycogen is utilized as an energy source during recovery. "
01/01/1995 - "The extent of changes in arginine phosphate and inorganic phosphate was directly proportional to the magnitude of the imposed acidosis. "
11/01/1996 - "The acidosis was correlated with decreasing levels of phospho-L-arginine and, thus, supported ATP buffering at the expense of the phosphagen. "
01/01/1995 - "Acidosis resulted in net hydrolysis of arginine phosphate, likely via a complex mechanism involving enhancement of rate of adenosine triphosphate hydrolysis and/or inhibition of adenosine triphosphate synthesis."
|1.||Adenosine Triphosphate (ATP)
|4.||Adenosine Diphosphate (ADP)