Person: Yildiz, Fatma
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Yildiz
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Fatma
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Yildiz, Fatma
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Publication A structure-based mechanism for tRNA and retroviral RNA remodelling during primer annealing(Nature Publishing Group, 2014) Miller, Sarah; Yildiz, Fatma; Lo, Jennifer; Wang, Bo; D'Souza, VictoriaTo prime reverse transcription, retroviruses require annealing of a transfer RNA molecule to the U5 primer binding site (U5-PBS) region of the viral genome [1,2]. The residues essential for primer annealing are initially locked in intramolecular interactions [3,4,5]; hence, annealing requires the chaperone activity of the retroviral nucleocapsid (NC) protein to facilitate structural rearrangements [6]. Here we show that, unlike classical chaperones, the Moloney murine leukaemia virus NC uses a unique mechanism for remodelling: it specifically targets multiple structured regions in both the U5-PBS and \(tRNA^{Pro}\) primer that otherwise sequester residues necessary for annealing. This high-specificity and high-affinity binding by NC consequently liberates these sequestered residues—which are exactly complementary—for intermolecular interactions. Furthermore, NC utilizes a step-wise, entropy-driven mechanism to trigger both residue-specific destabilization and residue-specific release. Our structures of NC bound to U5-PBS and tRNA^{Pro} reveal the structure-based mechanism for retroviral primer annealing and provide insights as to how ATP-independent chaperones can target specific RNAs amidst the cellular milieu of non-target RNAs.