LIPASE WAS ISOLATED FROM TWO DIFFERENT BACTERIAL SPECIES, ACINETOBACTER SPP. (AN AQUATIC ISOLATE) AND BACILLUS SPP. (A SOIL ISOLATE).
EACH ENZYME WAS TESTED FOR TEMPERATURE SENSITIVITY, AND THE RESULTS ARE SHOWN BELOW. WHICH ENZYME WAS FOUND TO HAVE A HIGHER OPTIMAL TEMPERATURE? [2 PT; L2; II.C] BACILLUS SPP. LIPASE ACINETOBACTER SPP. LIPASE
Lipase was isolated from two different bacterial species, Acinetobacter spp. (an aquatic isolate) and Bacillus spp. (a soil isolate). Each enzyme was tested for temperature sensitivity, and the results are shown below. Which enzyme was found to have a higher optimal temperature? [2 pt; L2; II.C] Bacillus spp. lipase Acinetobacter spp. lipase
LIPASE WAS ISOLATED FROM TWO DIFFERENT BACTERIAL SPECIES, ACINETOBACTER SPP. (AN AQUATIC ISOLATE) AND BACILLUS SPP. (A SOIL ISOLATE). EACH ENZYME WAS TESTED FOR TEMPERATURE SENSITIVITY, AND THE RESULTS ARE SHOWN BELOW. WHICH ENZYME WAS FOUND TO HAVE A HIGHER OPTIMAL TEMPERATURE? [2 PT; L2; II.C] BACILLUS SPP. LIPASE ACINETOBACTER SPP. LIPASE
March 9, 2018Orders In Progressdifferent bacterial species
Lipase was isolated from two different bacterial species, Acinetobacter spp. (an aquatic isolate) and Bacillus spp. (a soil isolate). Each enzyme was tested for temperature sensitivity, and the results are shown below. Which enzyme was found to have a higher optimal temperature? [2 pt; L2; II.C] Bacillus spp. lipase Acinetobacter spp. lipase