Temperature is one of the most important drivers in shaping protein adaptations. Many biochemical and physiological processes are influenced by temperature. Proteins and enzymes from organisms living at low temperature are less stable in comparison to high-temperature adapted proteins. The lower stability is generally due to greater conformational flexibility. Recent Advances: Adaptive changes in the structure of cold-adapted proteins may occur at subunit interfaces, distant from the active site, thus producing energy changes associated with conformational transitions transmitted to the active site by allosteric modulation valid also for monomeric proteins in which tertiary structural changes may play an essential role.
Conformational flexibility drives cold adaptation in Pseudoalteromonas haloplanktis TAC125 globins / Giordano, Daniela; Boubeta, Fernando Martín; di Prisco, Guido; Estrin, Dario; Smulevich, Giulietta; Viappiani, Christiano; Verde, Cinzia. - In: ANTIOXIDANTS & REDOX SIGNALING. - ISSN 1523-0864. - STAMPA. - 32:(2020), pp. 396-411. [10.1089/ars.2019.7887]
Conformational flexibility drives cold adaptation in Pseudoalteromonas haloplanktis TAC125 globins
Smulevich, Giulietta;
2020
Abstract
Temperature is one of the most important drivers in shaping protein adaptations. Many biochemical and physiological processes are influenced by temperature. Proteins and enzymes from organisms living at low temperature are less stable in comparison to high-temperature adapted proteins. The lower stability is generally due to greater conformational flexibility. Recent Advances: Adaptive changes in the structure of cold-adapted proteins may occur at subunit interfaces, distant from the active site, thus producing energy changes associated with conformational transitions transmitted to the active site by allosteric modulation valid also for monomeric proteins in which tertiary structural changes may play an essential role.
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