AI Article Synopsis
- The study reveals direct NMR evidence for a unique bifurcated H-bonding arrangement that involves nitrogen as an acceptor, specifically between histidine and threonine within ankyrin repeat proteins.
- The findings show that the internal H-bonds are stronger than those exposed on the protein's surface, which is supported by pKa values indicating lower acidity in hidden histidines.
- Additionally, substituting threonine with valine disrupts the H-bonding network, leading to increased H-bond scalar coupling, thus highlighting the crucial role of these interactions in protein stability and structure.
Article Abstract
In biomolecules, bifurcated H-bonds typically involve the interaction of two donor protons with the two lone pairs of oxygen. Here, we present direct NMR evidence for a bifurcated H-bonding arrangement involving nitrogen as the acceptor atom. Specifically, the H-bond network comprises the Nδ1 atom of histidine and both the backbone N-H and side-chain Oγ-H of threonine within the conserved TXXH motif of ankyrin repeat (AR) proteins. Identification of the H-bonding partners is achieved via solution NMR H-bond scalar coupling (HBC) and H/D isotope shift experiments. Quantitative determination of (2h)J(NN) HBCs supports that Thr N-H···Nδ1 His H-bonds within internal repeats are stronger (∼4 Hz) than in the solvent exposed C-terminal AR (∼2 Hz). In agreement, pKa values for the buried histidines bridging internal ARs are several units lower than those of the C-terminus. Quantum chemical calculations show that the relevant (2h)J and (1h)J couplings are dominated by the Fermi contact interaction. Finally, a Thr-to-Val replacement, which eliminates the Thr Oγ-H···Nδ1 His H-bond and decreases protein stability, results in a 25% increase in (2h)J(NN), attributed to optimization of the Val N-H···Nδ1 His H-bond. Overall, the results provide new insights into the H-bonding properties of histidine, a refined structural rationalization for the folding cooperativity of AR proteins, and a challenging benchmark for the calculation of HBCs.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4311973 | PMC |
| http://dx.doi.org/10.1021/ja510784g | DOI Listing |
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