Thermostabilization and thermoactivation of thermolabile enzymes by trehalose and its application for the synthesis of full length cDNA

Abstract: The advent of thermostable enzymes has led to great advances in molecular biology, such as the development of PCR and ligase chain reaction. However, isolation of naturally thermostable enzymes has been restricted to those existing in thermophylic bacteria. Here, we show that the disaccharide trehalose enables enzymes to maintain their normal activity (thermostabilization) or even to increase activity at high temperatures (thermoactivation) at which they are normally inactive. We also demonstrate how enzyme th… Show more

“…Although the surface tension of water increases to a much larger extent for certain simple electrolytes and carboxylic acid salts (26) compared with trehalose at identical concentrations, it seems that nature has preferred trehalose over these salts as their charged nature could have inhibitory effect on the activity of enzymes. 2 These data suggest why trehalose has been selected by nature as an exceptional stabilizing agent under various stress conditions. Table I shows clearly that trehalose does not affect the stability of various proteins to the same extent.…”

“…Unlike trehalose, other mono-and disaccharides and several of the polyols have not been observed to provide thermostabilization and thermoprotection of proteins to such an extent as trehalose (1,2,10,11). This is essentially due to the differences in their cosolvent molecular structure and their solution physico-chemical properties as described earlier.…”

“…It is a compatible osmolyte that gets accumulated in organisms under stress conditions (12, 13). Because of this unique property, tremendous interest has been generated in understanding the molecular basis of stress management through induction of trehalose biosynthesis (13, 14).Trehalose has also been found to be very effective in the stabilization of labile proteins during lyophilization (15, 16) and exposure to high temperatures in solution (2,8,9). Sugars in general protect proteins against dehydration by hydrogen bonding to the dried protein by serving as water substitute (15, 17).…”

“…Trehalose has also been found to be very effective in the stabilization of labile proteins during lyophilization (15, 16) and exposure to high temperatures in solution (2,8,9). Sugars in general protect proteins against dehydration by hydrogen bonding to the dried protein by serving as water substitute (15, 17).…”

“…Different proteins are expected to interact with cosolvent molecules in varied ways depending on their physicochemical properties. In general, trehalose has been observed to provide protection to different proteins to various extents and the efficacy of protection depends on the nature of the protein (2,4). Despite the availability of such data, the exact role of proteins and their physico-chemical properties in trehalose-mediated stability is still not clear.…”

Why Is Trehalose an Exceptional Protein Stabilizer?

“…Although the surface tension of water increases to a much larger extent for certain simple electrolytes and carboxylic acid salts (26) compared with trehalose at identical concentrations, it seems that nature has preferred trehalose over these salts as their charged nature could have inhibitory effect on the activity of enzymes. 2 These data suggest why trehalose has been selected by nature as an exceptional stabilizing agent under various stress conditions. Table I shows clearly that trehalose does not affect the stability of various proteins to the same extent.…”

“…Unlike trehalose, other mono-and disaccharides and several of the polyols have not been observed to provide thermostabilization and thermoprotection of proteins to such an extent as trehalose (1,2,10,11). This is essentially due to the differences in their cosolvent molecular structure and their solution physico-chemical properties as described earlier.…”

“…It is a compatible osmolyte that gets accumulated in organisms under stress conditions (12, 13). Because of this unique property, tremendous interest has been generated in understanding the molecular basis of stress management through induction of trehalose biosynthesis (13, 14).Trehalose has also been found to be very effective in the stabilization of labile proteins during lyophilization (15, 16) and exposure to high temperatures in solution (2,8,9). Sugars in general protect proteins against dehydration by hydrogen bonding to the dried protein by serving as water substitute (15, 17).…”

“…Trehalose has also been found to be very effective in the stabilization of labile proteins during lyophilization (15, 16) and exposure to high temperatures in solution (2,8,9). Sugars in general protect proteins against dehydration by hydrogen bonding to the dried protein by serving as water substitute (15, 17).…”

“…Different proteins are expected to interact with cosolvent molecules in varied ways depending on their physicochemical properties. In general, trehalose has been observed to provide protection to different proteins to various extents and the efficacy of protection depends on the nature of the protein (2,4). Despite the availability of such data, the exact role of proteins and their physico-chemical properties in trehalose-mediated stability is still not clear.…”

Why Is Trehalose an Exceptional Protein Stabilizer?

Trehalose and Protein Stability

Nucleic Acid Hybridization