1. The effect of high hydrostatic pressure and low temperature on lactic dehydrogenase and glutamic oxalacetic transaminase
- Author
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J.E. Carter, Perry L. Blackshear, Richard C. Lillehei, and Edmund F. Graham
- Subjects
Protein Denaturation ,Hydrostatic pressure ,Lactic dehydrogenase ,Bacillus subtilis ,In Vitro Techniques ,Kidney ,General Biochemistry, Genetics and Molecular Biology ,Transaminase ,Dogs ,Pressure ,medicine ,Animals ,Aspartate Aminotransferases ,Chymotrypsin ,Chromatography ,L-Lactate Dehydrogenase ,biology ,Chemistry ,General Medicine ,Trypsin ,biology.organism_classification ,Cold Temperature ,Perfusion ,Solutions ,biology.protein ,Tissue Preservation ,General Agricultural and Biological Sciences ,medicine.drug - Abstract
LDH and GOT can be used with assurance as indicators of pressure-temperature effects in most regions of interest, specifically below 20,000 psi. LDH was susceptible to pressure deactivation at pressure levels below those tolerated by chymotrypsin, trypsin and alpha-amylase of Bacillus subtilis (17, 18, 20). Samples of LDH and GOT cooled to −20 °C were deactivated to the greatest extent by the application of pressure. The presence of glycerine and DMSO appeared to increase the sensitivity of GOT and LDH to pressure deactivation. When pressure was applied before cooling all pressures above 15,000 psi resulted in some deactivation of LDH and all pressures above 20,000 psi resulted in some deactivation of GOT.
- Published
- 1971
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