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Team:UCLA/Project/NaturalSystem
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<p>The BPP-1 phage contains a Diversity-Generating Retroelement for diversifying its MTD protein. The BPP-1 genome contains a variable repeat (VR) of 134 base pairs on the gene coding for the mtd. This variable repeat is, as its name suggests, variable across every specimen of BPP-1, with variations isolated to 23 discrete nucleotides. Downstream from the variable repeat is the template repeat (TR), which serves as a master copy and is never permanently altered in wild-type phage (Medhekar). </p> | <p>The BPP-1 phage contains a Diversity-Generating Retroelement for diversifying its MTD protein. The BPP-1 genome contains a variable repeat (VR) of 134 base pairs on the gene coding for the mtd. This variable repeat is, as its name suggests, variable across every specimen of BPP-1, with variations isolated to 23 discrete nucleotides. Downstream from the variable repeat is the template repeat (TR), which serves as a master copy and is never permanently altered in wild-type phage (Medhekar). </p> | ||
<p>Occasionally, during the viral assembly process, the TR is transcribed, and then reverse transcribed by a reverse transcriptase coded for by the <i>brt</i> gene further downstream from the <i>mtd</i>g gene. This process introduces site mutations at the 23 extremely specific nucleotide locations. These nucleotides are all adenines, and are changed to any of the four possible nucleotides. The resulting cDNA strand is then directed to the location of the VR and integrated into the genome, replacing the VR itself (Guo).</p> | <p>Occasionally, during the viral assembly process, the TR is transcribed, and then reverse transcribed by a reverse transcriptase coded for by the <i>brt</i> gene further downstream from the <i>mtd</i>g gene. This process introduces site mutations at the 23 extremely specific nucleotide locations. These nucleotides are all adenines, and are changed to any of the four possible nucleotides. The resulting cDNA strand is then directed to the location of the VR and integrated into the genome, replacing the VR itself (Guo).</p> | ||
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<p>Guo, H., <i>et al. </i>Target Site Recognition by a Diversity-Generating Retroelement. <i>PLoS Genetics</i>. (2011)</p> | <p>Guo, H., <i>et al. </i>Target Site Recognition by a Diversity-Generating Retroelement. <i>PLoS Genetics</i>. (2011)</p> | ||
<p>Liu, M., <i>et al. </i>Reverse Transcriptase-Mediated Tropism Switching in Bordetella Bacteriophage. <i>Science</i>. <b>109</b>,5562 (2002)</p> | <p>Liu, M., <i>et al. </i>Reverse Transcriptase-Mediated Tropism Switching in Bordetella Bacteriophage. <i>Science</i>. <b>109</b>,5562 (2002)</p> | ||
Revision as of 19:24, 26 September 2013
The Natural Host
Bordetella is the natural host of the BPP-1 bacteriophage. It expresses a protein on its surface, pertactin, that BPP-1 binds to in the first step of the infection process. However, Bordetella does not always express pertactin. It cycles between two phases: Bvg+ and Bvg-. Pertactin is only expressed in the Bvg+ phase, while in the Bvg- phase, pertactin expression is inhibited. Infection by BPP-1 during this phase is much less common, but it still occurs (Liu). This indicates that the BPP-1 virus has a mechanism for changing its host specificity, and thus, the binding properties of the proteins on its tail fibers.
The Virus
The BPP-1 virus is a bacteriophage belonging to the Podoviridae family. It has an icosahedral head with T=7 symmetry, and a short, noncontractile tail with six tail “spikes” attached to tail fibers. At the end of these tail fibers are Major Tropism Determinant (mtd) proteins, which bind to the pertactin proteins expressed on the surface of Bordetella. The mtd protein does not display high affinity for pertactin, but the multiple mtd proteins possessed by each phage particle coupled with the flexibility of the tail fibers allow BPP-1 as a whole to have high avidity for its host (Liu). Following infection, the virus is lytic, and destroys the bacterial host to release more copies of itself (ViralZone).
Diversity Generation
The BPP-1 phage contains a Diversity-Generating Retroelement for diversifying its MTD protein. The BPP-1 genome contains a variable repeat (VR) of 134 base pairs on the gene coding for the mtd. This variable repeat is, as its name suggests, variable across every specimen of BPP-1, with variations isolated to 23 discrete nucleotides. Downstream from the variable repeat is the template repeat (TR), which serves as a master copy and is never permanently altered in wild-type phage (Medhekar).
Occasionally, during the viral assembly process, the TR is transcribed, and then reverse transcribed by a reverse transcriptase coded for by the brt gene further downstream from the mtdg gene. This process introduces site mutations at the 23 extremely specific nucleotide locations. These nucleotides are all adenines, and are changed to any of the four possible nucleotides. The resulting cDNA strand is then directed to the location of the VR and integrated into the genome, replacing the VR itself (Guo).
REFERENCES
Guo, H., et al. Target Site Recognition by a Diversity-Generating Retroelement. PLoS Genetics. (2011)
Liu, M., et al. Reverse Transcriptase-Mediated Tropism Switching in Bordetella Bacteriophage. Science. 109,5562 (2002)
Medhekar, B., Miller, J. Diversity-Generating Retroelements. Curr Opin Microbiol. 388 (2007).
ViralZone:Podoviridae.http://viralzone.expasy.org/all_by_species/141.html .(2011)
