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- Helin, Anu S., et al.
(author)
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Relation between structure and function of three AvBD3b variants from mallard (Anas platyrhynchos)
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Other publication (other academic/artistic)abstract
- Defensins are multifunctional antimicrobial peptides expressed in several tissue types and leucocytes as part of the innate immune response against microbes. Based on the three-dimensional structure and disulfide connectivity, vertebrate defensins are subdivided into α-, β-, and θ-defensins. While all three types have been found in mammals, only β-defensins have been identified in birds. Genetic studies have revealed dozens of different avian β-defensin (AvBD) genes in different bird species, as well as allelic variation for different genes. Knowledge of the relation between avian peptide structure features and antimicrobial activity is however limited. In this study, the structure-functional relations of three variants of AvBD3b, a mallard (Anas platyrhynchos) defensin of evolutionary interest, was investigated. Gene alleles encoding two of these peptides, AvBD3b:1 and AvBD3b:2 are common in mallards, whereas AvBD3b:3 occurs rare. These β-defensin peptides were synthesized as linear peptides and subjected to oxidative folding. The three-dimensional structure of AvBD3b:1, including disulfide bond connectivity, was determined using NMR, and those of AvBD3b:2 and AvBD3b:3 respectively, were modelled using AvBD3b:1 as the template. The antimicrobial activities of folded peptides were compared to those of linear peptides. The NMR analysis showed that folded AvBD3b adopts a three-dimensional structure typical for β-defensins, including C-terminal antiparallel β-sheets and disulfide bond organization between six cysteine (C) residues: C6-C34, C13-C28, and C18-C35. Analyses of antimicrobial activity showed that both folded and linear variants of the three peptides inhibited bacterial growth. However, differences in activity were observed, suggesting that folded AvBD3b:3 was the most efficient against both Gram-negative and Gram-positive bacteria. Taken together, these findings provide additional insight into the influence of amino acid sequence variation and three-dimensional structure on the antimicrobial activity of mallard AvBD3b.
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