Team:Wageningen UR/ObtainingthePoleroVLP

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(Introduction)
(Isolation and BioBricking of the potato leafroll virus (PLRV) coat protein.)
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The Polero (potato leaf roll virus, PLRV) virus coat proteins can be used as building blocks to form VLP’s. PLRV is a positive sense RNA virus (group IV). Viruses from this group have their genome directly utilized as if it were mRNA. Ribosomes from the host cell translate their genome into a protein, with RNA-dependent RNA polymerase as one of it. This means that to isolate the coat protein gene we need to isolate the RNA of infected potato plants which would include the viral RNA.
The Polero (potato leaf roll virus, PLRV) virus coat proteins can be used as building blocks to form VLP’s. PLRV is a positive sense RNA virus (group IV). Viruses from this group have their genome directly utilized as if it were mRNA. Ribosomes from the host cell translate their genome into a protein, with RNA-dependent RNA polymerase as one of it. This means that to isolate the coat protein gene we need to isolate the RNA of infected potato plants which would include the viral RNA.
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[[File:Luteoviridae_virion.jpg]]
After obtaining the coat protein gene of PLRV, the PCR product can be sent to be sequenced. The sequence of our isolate together with other isolates will give us information about the conserved regions in the gene. Alignment experiments can be performed, also together with data of other members of the Luteoviridae.  
After obtaining the coat protein gene of PLRV, the PCR product can be sent to be sequenced. The sequence of our isolate together with other isolates will give us information about the conserved regions in the gene. Alignment experiments can be performed, also together with data of other members of the Luteoviridae.  

Revision as of 15:34, 27 July 2012


Isolation and BioBricking of the potato leafroll virus (PLRV) coat protein.

The Polero (potato leaf roll virus, PLRV) virus coat proteins can be used as building blocks to form VLP’s. PLRV is a positive sense RNA virus (group IV). Viruses from this group have their genome directly utilized as if it were mRNA. Ribosomes from the host cell translate their genome into a protein, with RNA-dependent RNA polymerase as one of it. This means that to isolate the coat protein gene we need to isolate the RNA of infected potato plants which would include the viral RNA.

Luteoviridae virion.jpg

After obtaining the coat protein gene of PLRV, the PCR product can be sent to be sequenced. The sequence of our isolate together with other isolates will give us information about the conserved regions in the gene. Alignment experiments can be performed, also together with data of other members of the Luteoviridae. The PLRV coat protein can thereafter be ‘’BioBricked’’. This brick can be expressed in Escherichia coli and produced monomers can be isolated and purified.

In nature, the stopcodon of the coat protein is sometimes ‘’missed’’, which results in a 70kDa readthrough product. This is considerably larger than the 23kDa coat protein on its own. When the coat protein as well as the coat protein plus readthrough are assembled together to form the virus capsid, spikes are formed on the capsid. Virus like particles (VLPs) are being formed either with or without readtrough proteins. The expression of coat protein monomers, needed for VLP formation, has never been done in E.coli. If this step succeeds, further modifications on the VLP’s will be done.


Aim: Our primary aim is to get self-assembling VLP’s from PLRV in E. coli. If we succeed, we can attempt to modify the spike on the outside.

Bricking coat protein gene of potato leafroll virus (PRLV) from Wageningen potatoes.


Progress:

RNA isolation of potato leaf tissue

Reverse transcriptase reaction to obtain cDNA

PCR on cDNA using coat protein primers

Addition of Prefix and Suffix to CP genes