AI Article Synopsis
- Protein-protein interactions, often thought to occur through specific interfaces with limited amino acids, have been shown through in vivo studies that the dimerization of certain proteins like HdeA can involve residues throughout the entire polypeptide chain, not just those at the dimerization interface.
- This surprising finding was not due to protein over-expression or structural changes from genetic modifications, as similar dimerization patterns were observed in other proteins like IbpB and DegP.
- Conversely, some proteins only dimerized through specific residues, leading to insights on how protein interactions may occur through more dynamic mechanisms in living cells.
Article Abstract
Protein-protein interaction, including protein homo-oligomerization, is commonly believed to occur through a specific interface made of a limited number of amino acid residues. Here our systematic in vivo photo-crosslinking analysis via genetically incorporated unnatural amino acids unexpectedly shows that the dimerization of HdeA, an acid stress chaperone, is mediated by the residues along its whole polypeptide. These include those "forbidden" residues that are far away from the dimerization interface as judged according to the reported 3-D structure. We demonstrate that such dimerization, though intriguing, is neither a result of protein over-expression nor of any structural disturbance caused by the residue replacement. Similar unexpected dimerization also occurs for two other oligomeric proteins, IbpB (a molecular chaperone existing as polydispersed oligomers in vitro) and DegP (a protease existing as hexamers in vitro). In contrast to these three proteins, dimerization of a few other oligomeric proteins (e.g., OmpF, LamB, SurA, FtsZ and FkpA) that we similarly examined in living cells seems to be mediated only by specific residues. Together, our unexpected observations suggest that, for some oligomeric proteins such as HdeA, IbpB and DegP, their subunit interactions in living cells can also be mediated by residues other than those located at the interfaces as revealed by in vitro structure determination. Our observations might be partially explained by the formation of "encounter complex" or by protein conformational dynamics. Our findings provide new insights on understanding protein-protein interactions and encounter complex formation in living cells.
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| http://dx.doi.org/10.1016/j.bbrc.2019.03.004 | DOI Listing |
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