Abstract
The ability to identify the functional correlates of structural and sequence variation in proteins is a critical capability. We related structures of influenza A N10 and N11 proteins that have no established function to structures of proteins with known function by identifying spatially conserved atoms. We identified atoms with common distributed spatial occupancy in PDB structures of N10 protein, N11 protein, an influenza A neuraminidase, an influenza B neuraminidase, and a bacterial neuraminidase. By superposing these spatially conserved atoms, we aligned the structures and associated molecules. We report spatially and sequence invariant residues in the aligned structures. Spatially invariant residues in the N6 and influenza B neuraminidase active sites were found in previously unidentified spatially equivalent sites in the N10 and N11 proteins. We found the corresponding secondary and tertiary structures of the aligned proteins to be largely identical despite significant sequence divergence. We found structural precedent in known non-neuraminidase structures for residues exhibiting structural and sequence divergence in the aligned structures. In N10 protein, we identified staphylococcal enterotoxin I-like domains. In N11 protein, we identified hepatitis E E2S-like domains, SARS spike protein-like domains, and toxin components shared by alpha-bungarotoxin, staphylococcal enterotoxin I, anthrax lethal factor, clostridium botulinum neurotoxin, and clostridium tetanus toxin. The presence of active site components common to the N6, influenza B, and S. pneumoniae neuraminidases in the N10 and N11 proteins, combined with the absence of apparent neuraminidase function, suggests that the role of neuraminidases in H17N10 and H18N11 emerging influenza A viruses may have changed. The presentation of E2S-like, SARS spike protein-like, or toxin-like domains by the N10 and N11 proteins in these emerging viruses may indicate that H17N10 and H18N11 sialidase-facilitated cell entry has been supplemented or replaced by sialidase-independent receptor binding to an expanded cell population that may include neurons and T-cells.
Highlights
The ability to identify the functional correlates of structural and sequence variation in proteins is especially critical in evaluating functional changes in emerging pathogens and interacting pathogen systems
In N11 protein, we identified hepatitis E E2S-like domains, SARS spike protein-like domains, and toxin components shared by alpha-bungarotoxin, staphylococcal enterotoxin I, anthrax lethal factor, clostridium botulinum neurotoxin, and clostridium tetanus toxin
We identified variable loop regions in the N10 and N11 proteins that present residues forming domains associated with cell entry in non-neuraminidase proteins, such as toxins and hepatitis E and SARS viral coat proteins
Summary
The ability to identify the functional correlates of structural and sequence variation in proteins is especially critical in evaluating functional changes in emerging pathogens and interacting pathogen systems. Pathogenic influenza A viruses have emerged with expanded tissue preferences, reassortment opportunities with other viral species, and interactions with bacterial species. An avian-origin pathogenic H7N9 influenza A virus has emerged in China that causes severe pneumonia and has adapted to replicate in the human conducting and lower airways of humans [1]. A short period of viral shedding of H5N1 HPA1 influenza A virus indicates that emergent influenzas can reinfect a population of hosts can over several transmission cycles in naive hosts [2]. Bacterial neuraminidases have been found to rescue influenza virus replication from being inhibited by the neuraminidase inhibitor zanamivir [3]. Reassortment between avian and human influenza viruses has been found to be mainly between the matrix and neuraminidase gene segments [4]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
