The folding of a metallopeptide
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Royal Society of Chemistry
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Abstract
We have applied solid-phase synthesis methods for the construction of tris(bipyridyl) peptidic ligands that coordinate Fe(II) ions with high affinity and fold into stable mononuclear metallopeptides. The main factors influencing the folding pathway and chiral control of the peptidic ligands around the metal ions have been studied both by experimental techniques (CD, UV-vis and NMR) and molecular modeling tools. Amongst the numerous molecular variables that have been studied, this study clearly illustrates how the chirality of a given set of aminoacids (proline in this case) of the peptide dictates the chirality of the metal center of the resulting metallopeptide. Moreover, the relatively hydrophobic peptidic models used in this work show that the most stable structures present reduced solvent contacts and, in counterpart, stabilize the cis configuration of the proline residues
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Gamba, I., Rama, G., Ortega-Carrasco, E., Berardozzi, R., Sánchez-Pedregal, V., & Di Bari, L. et al. (2016). The folding of a metallopeptide. Dalton Transactions, 45(3), 881-885. doi: 10.1039/c5dt02797g
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https://doi.org/10.1039/C5DT02797GSponsors
We are thankful for the support given by the Spanish grants
SAF2013-41943-R, CTQ2012-31341, CTQ2011-23336 and
CTQ2013-49317-EXP; the ERDF and the European Research
Council (Advanced Grant 340055); the Xunta de Galicia grants
GRC2013-041 and PGIDIT08CSA-047209PR and the Generalitat
de Catalunya grant 2009SGR68. Support of COST Action
CM1105 is kindly acknowledged. G.R. thanks the INL for his
PhD fellowship
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© The Royal Society of Chemistry 2016