Study of thermal stability of beta-glucosidase from the land crab digestive juice (Cardisoma armatum): kinetic and thermodynamic analysis

×

Error message

  • User warning: The following theme is missing from the file system: journalijdr. For information about how to fix this, see the documentation page. in _drupal_trigger_error_with_delayed_logging() (line 1138 of /home2/journalijdr/public_html/includes/bootstrap.inc).
  • Deprecated function: implode(): Passing glue string after array is deprecated. Swap the parameters in drupal_get_feeds() (line 394 of /home2/journalijdr/public_html/includes/common.inc).
  • Deprecated function: The each() function is deprecated. This message will be suppressed on further calls in _menu_load_objects() (line 579 of /home2/journalijdr/public_html/includes/menu.inc).

International Journal of Development Research

Study of thermal stability of beta-glucosidase from the land crab digestive juice (Cardisoma armatum): kinetic and thermodynamic analysis

Abstract: 

The thermal stability of beta-glucosidase from the land crab digestive juice (Cardisoma armatum) was investigated by studying the effect of heat treatment over a range of 60 to 75 °C. Thermal inactivation of this enzyme, evaluated by loss in activity, was apparently followed by first-order kinetics with k-values comprised between 0.0049 to 0.0391 min-1. D and k-values decreased and increased, respectively, with increasing temperature, indicating faster inactivation of beta-glucosidase at higher temperatures. Ea and Z-values were estimated to 172.98 kJ mol-1 and 12.80 °C respectively. Thermodynamic parameters were also calculated. All the results suggest that enzyme was relatively resistant to long heat treatments up to 60 °C.

Download PDF: 
PDF icon 2035.pdf