: Structural disorder in proteins is central to cellular signaling, where conformational plasticity equips molecules to promiscuously interact with different partners. By engaging with multiple binding partners via the rearrangement of its three helices, the nuclear coactivator binding domain (NCBD) of the CBP/p300 transcription factor is a paradigmatic example of promiscuity. Recently, molecular simulations and experiments revealed that, through the establishment of long-range electrostatic interactions, intended as salt-bridges formed between the post-translationally inserted phosphate and positively charged residues in helix H3 of NCBD, phosphorylation triggers NCBD compaction, lowering its affinity for binding partners. By means of extensive molecular simulations, we here investigated the effect of short-range electrostatics on the conformational ensemble of NCBD, by monitoring the interactions between a phosphorylated serine and conserved positively charged residues within the NCBD phospho-motif. We found that empowering proximal electrostatic interactions, as opposed to long-range electrostatics, can reshape the NCBD ensemble rescuing the binding competency of phosphorylated NCBD. Given the conservation of positive charges in phospho-motifs, proximal electrostatic interactions might dampen the effects of phosphorylation and act as a relay to regulate phosphorylated intrinsically disordered proteins, ultimately tuning the binding affinity for different cellular partners.

Charge Relaying within a Phospho-Motif Rescue Binding Competency of a Disordered Transcription Factor / Mcivor, J. A. P.; Larsen, D. S.; Mercadante, D.. - In: JOURNAL OF CHEMICAL INFORMATION AND MODELING. - ISSN 1549-960X. - 64:15(2024), pp. 6041-6052. [10.1021/acs.jcim.4c00286]

Charge Relaying within a Phospho-Motif Rescue Binding Competency of a Disordered Transcription Factor

McIvor J. A. P.;Mercadante D.
2024

Abstract

: Structural disorder in proteins is central to cellular signaling, where conformational plasticity equips molecules to promiscuously interact with different partners. By engaging with multiple binding partners via the rearrangement of its three helices, the nuclear coactivator binding domain (NCBD) of the CBP/p300 transcription factor is a paradigmatic example of promiscuity. Recently, molecular simulations and experiments revealed that, through the establishment of long-range electrostatic interactions, intended as salt-bridges formed between the post-translationally inserted phosphate and positively charged residues in helix H3 of NCBD, phosphorylation triggers NCBD compaction, lowering its affinity for binding partners. By means of extensive molecular simulations, we here investigated the effect of short-range electrostatics on the conformational ensemble of NCBD, by monitoring the interactions between a phosphorylated serine and conserved positively charged residues within the NCBD phospho-motif. We found that empowering proximal electrostatic interactions, as opposed to long-range electrostatics, can reshape the NCBD ensemble rescuing the binding competency of phosphorylated NCBD. Given the conservation of positive charges in phospho-motifs, proximal electrostatic interactions might dampen the effects of phosphorylation and act as a relay to regulate phosphorylated intrinsically disordered proteins, ultimately tuning the binding affinity for different cellular partners.
2024
Charge Relaying within a Phospho-Motif Rescue Binding Competency of a Disordered Transcription Factor / Mcivor, J. A. P.; Larsen, D. S.; Mercadante, D.. - In: JOURNAL OF CHEMICAL INFORMATION AND MODELING. - ISSN 1549-960X. - 64:15(2024), pp. 6041-6052. [10.1021/acs.jcim.4c00286]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/990002
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