Psychrophilic organisms adapted to cold environments produce molecules of relevance for biotechnological application, in particular enzymes active at low temperatures and ice-binding proteins that control the growth of ice crystals. The use of cold-active enzymes supports low temperature processes that preserve heat labile compounds and can result, in some circumstances, in energy saving. Among the several possible applications in biotransformations, this paper focuses on reactions of relevance for the food industry and in molecular biology, representative of different market segments. Ice-binding proteins reduce tissues damage provoked by ice crystals and are therefore of relevance for frozen foods and for the cryopreservation of organs and tissues in the biomedical sector.

Mangiagalli, M., Brocca, S., Orlando, M., Lotti, M. (2020). The "cold revolution". Present and future applications of cold-active enzymes and ice-binding proteins. NEW BIOTECHNOLOGY, 55, 5-11 [10.1016/j.nbt.2019.09.003].

The "cold revolution". Present and future applications of cold-active enzymes and ice-binding proteins

Mangiagalli, Marco
Primo
;
Brocca, Stefania
Secondo
;
Orlando, Marco
Penultimo
;
Lotti, Marina
Ultimo
2020

Abstract

Psychrophilic organisms adapted to cold environments produce molecules of relevance for biotechnological application, in particular enzymes active at low temperatures and ice-binding proteins that control the growth of ice crystals. The use of cold-active enzymes supports low temperature processes that preserve heat labile compounds and can result, in some circumstances, in energy saving. Among the several possible applications in biotransformations, this paper focuses on reactions of relevance for the food industry and in molecular biology, representative of different market segments. Ice-binding proteins reduce tissues damage provoked by ice crystals and are therefore of relevance for frozen foods and for the cryopreservation of organs and tissues in the biomedical sector.
Articolo in rivista - Review Essay
Antifreeze proteins; Cold adaptation; Cryopreservation; Food science; Molecular biology;
English
20-set-2019
2020
55
5
11
reserved
Mangiagalli, M., Brocca, S., Orlando, M., Lotti, M. (2020). The "cold revolution". Present and future applications of cold-active enzymes and ice-binding proteins. NEW BIOTECHNOLOGY, 55, 5-11 [10.1016/j.nbt.2019.09.003].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/245504
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