Study examines ‘virus and host’ factors in ASF

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Researchers from The Pirbright Institute are joining UCL experts in a study to understand how African swine fever virus (ASFV) enters and replicates in pig cells.

Scientists at UCL’s Institute of Structural and Molecular Biology, led by Professor Finn Werner and funded by BBSRC and the Wellcome Trust, have taken a major step forward in understanding how ASFV genes are controlled and expressed – the process by which the gene’s coded information becomes an active function in a cell.

ASFV causes a fatal disease of domestic pigs and wild boar that can have a severe socio-economic impact on affected countries.

The virus replicates inside a host cell and uses its own machinery to transcribe its genes into mRNAs – molecules that either instruct cells to make a protein required for replication or change the host cell function.

In a breakthrough paper published in Nature Communications, the UCL team assembled eight proteins, comprising the ASFV RNA polymerase, to produce an active complex that can transcribe genes and produce mRNA.

They then used cryo-electron microscopy to solve the molecular structure of the RNA polymerase in unprecedented detail. The structure revealed similarities with its host counterpart, but also many unique features that reflect adaptions of this molecular machine to better serve virus gene control.

The research will now allow a team of Pirbright scientists to explore factors affecting how ASFV replicates in swine.


The Pirbright Institute 

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