2MX4

NMR structure of Phosphorylated 4E-BP2

2MX4 の概要

• エントリーDOI: 10.2210/pdb2mx4/pdb
• NMR情報: BMRB: 19905
• 分子名称: Eukaryotic translation initiation factor 4E-binding protein 2 (1 entity in total)
• 機能のキーワード: phosphorylation, intrinsic disorder, translation, protein binding
• 由来する生物種: Homo sapiens (human)
• タンパク質・核酸の鎖数: 1
• 化学式量合計: 5090.52

構造登録者

Bah, A.,Forman-Kay, J.,Vernon, R.,Siddiqui, Z.,Krzeminski, M.,Muhandiram, R.,Zhao, C.,Sonenberg, N.,Kay, L. (登録日: 2014-12-10, 公開日: 2015-01-07, 最終更新日: 2024-10-09)

主引用文献

Bah, A.,Vernon, R.M.,Siddiqui, Z.,Krzeminski, M.,Muhandiram, R.,Zhao, C.,Sonenberg, N.,Kay, L.E.,Forman-Kay, J.D.
Folding of an intrinsically disordered protein by phosphorylation as a regulatory switch.
Nature, 519:106-109, 2015

PubMed Abstract: Intrinsically disordered proteins play important roles in cell signalling, transcription, translation and cell cycle regulation. Although they lack stable tertiary structure, many intrinsically disordered proteins undergo disorder-to-order transitions upon binding to partners. Similarly, several folded proteins use regulated order-to-disorder transitions to mediate biological function. In principle, the function of intrinsically disordered proteins may be controlled by post-translational modifications that lead to structural changes such as folding, although this has not been observed. Here we show that multisite phosphorylation induces folding of the intrinsically disordered 4E-BP2, the major neural isoform of the family of three mammalian proteins that bind eIF4E and suppress cap-dependent translation initiation. In its non-phosphorylated state, 4E-BP2 interacts tightly with eIF4E using both a canonical YXXXXLΦ motif (starting at Y54) that undergoes a disorder-to-helix transition upon binding and a dynamic secondary binding site. We demonstrate that phosphorylation at T37 and T46 induces folding of residues P18-R62 of 4E-BP2 into a four-stranded β-domain that sequesters the helical YXXXXLΦ motif into a partly buried β-strand, blocking its accessibility to eIF4E. The folded state of pT37pT46 4E-BP2 is weakly stable, decreasing affinity by 100-fold and leading to an order-to-disorder transition upon binding to eIF4E, whereas fully phosphorylated 4E-BP2 is more stable, decreasing affinity by a factor of approximately 4,000. These results highlight stabilization of a phosphorylation-induced fold as the essential mechanism for phospho-regulation of the 4E-BP:eIF4E interaction and exemplify a new mode of biological regulation mediated by intrinsically disordered proteins.

PubMed: 25533957
DOI: 10.1038/nature13999

実験手法

SOLUTION NMR