Open AccessSelf-Folding of Naked Segment 8 Genomic RNA of Influenza A Virus
Author(s) -
Elżbieta Lenartowicz,
Julita Kęsy,
Agnieszka Ruszkowska,
Marta Soszynska-Jozwiak,
Paula Michalak,
Walter N. Moss,
Douglas H. Turner,
Ryszard Kierzek,
Elżbieta Kierzek
Publication year - 2016
Publication title -
plos one
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.99
H-Index - 332
ISSN - 1932-6203
DOI - 10.1371/journal.pone.0148281
Subject(s) - rna , nucleic acid secondary structure , biology , influenza a virus , base pair , protein secondary structure , nucleic acid structure , virus , folding (dsp implementation) , virology , computational biology , non coding rna , genetics , gene , biochemistry , electrical engineering , engineering
Influenza A is a negative sense RNA virus that kills hundreds of thousands of humans each year. Base pairing in RNA is very favorable, but possibilities for RNA secondary structure of the influenza genomic RNA have not been investigated. This work presents the first experimentally-derived exploration of potential secondary structure in an influenza A naked (protein-free) genomic segment. Favorable folding regions are revealed by in vitro chemical structure mapping, thermodynamics, bioinformatics, and binding to isoenergetic microarrays of an entire natural sequence of the 875 nt segment 8 vRNA and of a smaller fragment. Segment 8 has thermodynamically stable and evolutionarily conserved RNA structure and encodes essential viral proteins NEP and NS1. This suggests that vRNA self-folding may generate helixes and loops that are important at one or more stages of the influenza life cycle.
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