In this paper, we briefly summarize some of our past work, present new data on the variation of influenza A, B, and C viruses, and describe some of the genetic mechanisms resulting in variability of influenza A viruses
It is now generally recognized that the influenza viruses include numerous different but related str...
The genetic material of influenza A virus consists of eight negative-sense RNA segments. Under suita...
Most studies on seasonal influenza A/H3N2 virus adaptation have focused on the main antigenic gene, ...
In this paper, we briefly summarize some of our past work, present new data on the variation of in...
Viruses are endowed with a great ability to adapt to different environments. It means altering their...
SUMMARY: When the strain NWS of influenza virus, which is adapted to multi-plication in mouse brain,...
The aftermath of influenza infection is determined by a complex set of host-pathogen interactions, w...
Abstract Despite their close phylogenetic relationship, type A and B influenza viruses exhibit major...
The aftermath of influenza infection is determined by a complex set of host-pathogen interactions, w...
The influenza A virus remains one of the most common and dangerous human health concerns due to its ...
Evolution of influenza viruses involves both the gradual accumulation of mutations and genetic reass...
Influenza is an RNA virus that causes mild to severe respiratory symptoms in humans and other hosts....
International audienceRecent in-depth genetic analyses of influenza A virus samples have revealed pa...
Viral population evolution dynamics of influenza A is crucial for surveillance and control. In this ...
To examine the molecular epidemiology of influenza virus transmission, the nucleotide sequences of t...
It is now generally recognized that the influenza viruses include numerous different but related str...
The genetic material of influenza A virus consists of eight negative-sense RNA segments. Under suita...
Most studies on seasonal influenza A/H3N2 virus adaptation have focused on the main antigenic gene, ...
In this paper, we briefly summarize some of our past work, present new data on the variation of in...
Viruses are endowed with a great ability to adapt to different environments. It means altering their...
SUMMARY: When the strain NWS of influenza virus, which is adapted to multi-plication in mouse brain,...
The aftermath of influenza infection is determined by a complex set of host-pathogen interactions, w...
Abstract Despite their close phylogenetic relationship, type A and B influenza viruses exhibit major...
The aftermath of influenza infection is determined by a complex set of host-pathogen interactions, w...
The influenza A virus remains one of the most common and dangerous human health concerns due to its ...
Evolution of influenza viruses involves both the gradual accumulation of mutations and genetic reass...
Influenza is an RNA virus that causes mild to severe respiratory symptoms in humans and other hosts....
International audienceRecent in-depth genetic analyses of influenza A virus samples have revealed pa...
Viral population evolution dynamics of influenza A is crucial for surveillance and control. In this ...
To examine the molecular epidemiology of influenza virus transmission, the nucleotide sequences of t...
It is now generally recognized that the influenza viruses include numerous different but related str...
The genetic material of influenza A virus consists of eight negative-sense RNA segments. Under suita...
Most studies on seasonal influenza A/H3N2 virus adaptation have focused on the main antigenic gene, ...
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