Missense mutations in EGFR's catalytic domain alter its function, promoting cancer. SEIRA spectroscopy, supported by MD simulations, reveals structural differences in the compactness and hydration of helical motifs between active and inactive EGFR conformations models. These findings provide novel insights into the biophysical mechanisms driving EGFR activation and drug resistance, offering a robust method for studying emerging EGFR mutations and their structural impacts on TKIs’ efficacy.
Probing conformational dynamics of EGFR mutants via SEIRA spectroscopy: potential implications for tyrosine kinase inhibitor design / Laudadio, Emiliano; Piccirilli, Federica; Vondracek, Henrick; Mobbili, Giovanna; Semrau, Marta S.; Storici, Paola; Galeazzi, Roberta; Romagnoli, Elena; Sorci, Leonardo; Toma, Andrea; Aglieri, Vincenzo; Birarda, Giovanni; Minnelli, Cristina. - In: PHYSICAL CHEMISTRY CHEMICAL PHYSICS. - ISSN 1463-9076. - 26:35(2024), pp. 22853-22857. [10.1039/d4cp02232g]
Probing conformational dynamics of EGFR mutants via SEIRA spectroscopy: potential implications for tyrosine kinase inhibitor design
Laudadio, EmilianoCo-primo
;Mobbili, Giovanna;Galeazzi, Roberta;Romagnoli, Elena;Sorci, Leonardo;Minnelli, Cristina
Ultimo
2024-01-01
Abstract
Missense mutations in EGFR's catalytic domain alter its function, promoting cancer. SEIRA spectroscopy, supported by MD simulations, reveals structural differences in the compactness and hydration of helical motifs between active and inactive EGFR conformations models. These findings provide novel insights into the biophysical mechanisms driving EGFR activation and drug resistance, offering a robust method for studying emerging EGFR mutations and their structural impacts on TKIs’ efficacy.| File | Dimensione | Formato | |
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