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Biomolecules

Title:		A Comparative Evaluation of the Structural and Dynamic Properties of Insect Odorant Binding Proteins
Author(s):		Tzotzos G;
Address:		"Ferrogasse 27, 1180 Vienna, Austria"
Journal Title:		Biomolecules
Year:		2022
Volume:		20220209
Issue:		2
Page Number:		-
DOI:		10.3390/biom12020282
ISSN/ISBN:		2218-273X (Electronic) 2218-273X (Linking)
Abstract:		"Insects devote a major part of their metabolic resources to the production of odorant binding proteins (OBPs). Although initially, these proteins were implicated in the solubilisation, binding and transport of semiochemicals to olfactory receptors, it is now recognised that they may play diverse, as yet uncharacterised, roles in insect physiology. The structures of these OBPs, the majority of which are known as 'classical' OBPs, have shed some light on their potential functional roles. However, the dynamic properties of these proteins have received little attention despite their functional importance. Structural dynamics are encoded in the native protein fold and enable the adaptation of proteins to substrate binding. This paper provides a comparative review of the structural and dynamic properties of OBPs, making use of sequence/structure analysis, statistical and theoretical physics-based methods. It provides a new layer of information and additional methodological tools useful in unravelling the relationship between structure, dynamics and function of insect OBPs. The dynamic properties of OBPs, studied by means of elastic network models, reflect the similarities/dissimilarities observed in their respective structures and provides insights regarding protein motions that may have important implications for ligand recognition and binding. Furthermore, it was shown that the OBPs studied in this paper share conserved structural 'core' that may be of evolutionary and functional importance"
Keywords:		"Animals Insect Proteins/chemistry Insecta/physiology Odorants Pheromones Phylogeny *Receptors, Odorant/metabolism covariance similarity analysis elastic network models insect OBPs structural analysis;"
Notes:		"MedlineTzotzos, George eng Switzerland 2022/02/26 Biomolecules. 2022 Feb 9; 12(2):282. doi: 10.3390/biom12020282"