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Analyzing Current Trends and Possible Strategies to Improve Sucrose Isomerases' Thermostability.

Amado Javier Sardiña-PeñaLiber Mesa-RamosBlanca Flor Iglesias-FigueroaLourdes Ballinas-CasarrubiasTania Samanta Siqueiros-CendónEdward Alexander Espinoza-SánchezNorma Rosario Flores-HolguínSigifredo Arévalo-GallegosQuintín Rascón-Cruz
Published in: International journal of molecular sciences (2023)
Due to their ability to produce isomaltulose, sucrose isomerases are enzymes that have caught the attention of researchers and entrepreneurs since the 1950s. However, their low activity and stability at temperatures above 40 °C have been a bottleneck for their industrial application. Specifically, the instability of these enzymes has been a challenge when it comes to their use for the synthesis and manufacturing of chemicals on a practical scale. This is because industrial processes often require biocatalysts that can withstand harsh reaction conditions, like high temperatures. Since the 1980s, there have been significant advancements in the thermal stabilization engineering of enzymes. Based on the literature from the past few decades and the latest achievements in protein engineering, this article systematically describes the strategies used to enhance the thermal stability of sucrose isomerases. Additionally, from a theoretical perspective, we discuss other potential mechanisms that could be used for this purpose.
Keyphrases
  • wastewater treatment
  • heavy metals
  • systematic review
  • working memory
  • risk assessment
  • protein protein
  • binding protein
  • human health