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Biomolecules


Title:Unfolding thermodynamics of cysteine-rich proteins and molecular thermal-adaptation of marine ciliates
Author(s):Cazzolli G; Skrbic T; Guella G; Faccioli P;
Address:"Physics Department, Trento University, Via Sommarive 14, Povo (Trento) 38123, Italy. cazzolli@science.unitn.it. Physics Department, Trento University, Via Sommarive 14, Povo (Trento) 38123, Italy. skrbic@sissa.it. Physics Department, Trento University, Via Sommarive 14, Povo (Trento) 38123, Italy. guella@science.unitn.it. Physics Department, Trento University, Via Sommarive 14, Povo (Trento) 38123, Italy. faccioli@science.unitn.it"
Journal Title:Biomolecules
Year:2013
Volume:20131118
Issue:4
Page Number:967 - 985
DOI: 10.3390/biom3040967
ISSN/ISBN:2218-273X (Print) 2218-273X (Electronic) 2218-273X (Linking)
Abstract:"Euplotes nobilii and Euplotes raikovi are phylogenetically closely allied species of marine ciliates, living in polar and temperate waters, respectively. Their evolutional relation and the sharply different temperatures of their natural environments make them ideal organisms to investigate thermal-adaptation. We perform a comparative study of the thermal unfolding of disulfide-rich protein pheromones produced by these ciliates. Recent circular dichroism (CD) measurements have shown that the two psychrophilic (E. nobilii) and mesophilic (E. raikovi) protein families are characterized by very different melting temperatures, despite their close structural homology. The enhanced thermal stability of the E. raikovi pheromones is realized notwithstanding the fact that these proteins form, as a rule, a smaller number of disulfide bonds. We perform Monte Carlo (MC) simulations in a structure-based coarse-grained (CG) model to show that the higher stability of the E. raikovi pheromones is due to the lower locality of the disulfide bonds, which yields a lower entropy increase in the unfolding process. Our study suggests that the higher stability of the mesophilic E. raikovi phermones is not mainly due to the presence of a strongly hydrophobic core, as it was proposed in the literature. In addition, we argue that the molecular adaptation of these ciliates may have occurred from cold to warm, and not from warm to cold. To provide a testable prediction, we identify a point-mutation of an E. nobilii pheromone that should lead to an unfolding temperature typical of that of E. raikovi pheromones"
Keywords:
Notes:"PubMed-not-MEDLINECazzolli, Giorgia Skrbic, Tatjana Guella, Graziano Faccioli, Pietro eng Switzerland 2013/01/01 Biomolecules. 2013 Nov 18; 3(4):967-85. doi: 10.3390/biom3040967"

 
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Citation: El-Sayed AM 2024. The Pherobase: Database of Pheromones and Semiochemicals. <http://www.pherobase.com>.
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