Difference between revisions of "Part:BBa K404092"

Line 1: Line 1:
 +
__NOTOC__
 
__NOTOC__
 
__NOTOC__
 
<partinfo>BBa_K404092 short</partinfo>
 
<partinfo>BBa_K404092 short</partinfo>
 
 
[[Image:Freiburg10_ReplicationBricks 3.png|thumb|center|480px]]<br>
 
[[Image:Freiburg10_ReplicationBricks 3.png|thumb|center|480px]]<br>
 
 
<html>
 
<html>
<p class=MsoNormal><a name="_Toc275742252">&nbsp;</a></p>
+
<p class="MsoNormal"><a name="_Toc275742252">&nbsp;</a></p>
 
+
<h3 style="margin-left: 0cm; text-indent: 0cm;">Rep proteins<a
<h3 style='margin-left:0cm;text-indent:0cm'>Rep proteins<a name="_Toc274911368"></a></h3>
+
name="_Toc274911368"></a></h3>
 
+
<h4 style="margin-left: 0cm; text-indent: 0cm;">Overview</h4>
<h4 style='margin-left:0cm;text-indent:0cm'>Overview</h4>
+
<p class="MsoNormal"
 
+
style="margin: 0cm 0cm 0.0001pt 17.85pt; text-indent: 0cm;"><span
<p class=MsoNormal style='margin-top:0cm;margin-right:0cm;margin-bottom:0cm;
+
style="font-size: 10pt; line-height: 200%;">The Adeno-associated virus
margin-left:17.85pt;margin-bottom:.0001pt;text-indent:0cm;text-autospace:none'><span
+
(AAV)
style='font-size:10.0pt;line-height:200%'>The Adeno-associated virus (AAV)
+
consists of two open reading frames (ORF), <i>rep</i> and <i>cap</i>
consists of two open reading frames (ORF), <i>rep</i> and <i>cap</i> ORF. The<i>
+
ORF. The<i>
</i>four non-structural <i>rep</i> genes are driven by two promoters located at
+
</i>four non-structural <i>rep</i> genes are driven by two promoters
 +
located at
 
map units 5 (</span>p5 promoter<span
 
map units 5 (</span>p5 promoter<span
style='font-size:10.0pt;line-height:200%'>) and 19 (</span>p19 promoter<span style='font-size:10.0pt;line-height:200%'>). Rep proteins are
+
style="font-size: 10pt; line-height: 200%;">) and 19 (</span>p19
involved in genome encapsidation (reference), regulation of gene expression
+
promoter<span style="font-size: 10pt; line-height: 200%;">). Rep
 +
proteins are
 +
involved in genome encapsidation (reference), regulation of gene
 +
expression
 
(reference) and replication of the viral genome (reference). </span></p>
 
(reference) and replication of the viral genome (reference). </span></p>
 
+
<div align="center">
<div align=center>
+
<table class="MsoTableGrid"
 
+
style="border: medium none ; border-collapse: collapse; margin-left: auto; margin-right: auto; text-align: left;"
<table class=MsoTableGrid border=0 cellspacing=0 cellpadding=0 align=left
+
border="0" cellpadding="0" cellspacing="0">
style='border-collapse:collapse;border:none;margin-left:-2.25pt;margin-right:
+
<tbody>
-2.25pt'>
+
<tr style="height: 232.5pt;">
<tr style='height:232.5pt'>
+
<td
  <td width=533 valign=top style='width:399.65pt;padding:0cm 5.4pt 0cm 5.4pt;
+
style="padding: 0cm 5.4pt; vertical-align: top; width: 399.65pt; height: 232.5pt;">
  height:232.5pt'>
+
<p class="MsoNormal"
  <p class=MsoNormal style='text-indent:0cm;page-break-after:avoid;text-autospace:
+
style="text-indent: 0cm; page-break-after: avoid;"><span
  none'><span style='font-size:10.0pt;line-height:200%'><img width=495
+
style="font-size: 10pt; line-height: 200%;"><img
  height=280 id="Picture 2" src="Rep%20proteins_files/image001.png"></span></p>
+
style="width: 495px; height: 280px;" alt="" id="Picture 2"
  <p class=MsoCaption>Figure 8: Genomic organization of the AAV-2 genome. The <i>rep</i>
+
src="https://static.igem.org/mediawiki/2010/0/0f/Freiburg10_Rep_proteins_organization.png"></span></p>
  gene codes for four non-structural proteins – Rep40, Rep52, Rep68 and Rep78 –
+
<p class="MsoCaption">Figure 8: Genomic organization of the AAV-2
  which are involved in gene regulation, genime encapsiation and viral DNA
+
genome. The <i>rep</i> gene codes for four non-structural proteins –
  integration.</p>
+
Rep40, Rep52, Rep68 and Rep78 – which are involved in gene regulation,
  </td>
+
genime encapsiation and viral DNA integration.</p>
</tr>
+
</td>
 +
</tr>
 +
</tbody>
 
</table>
 
</table>
 
 
</div>
 
</div>
 
+
<p class="MsoNormal" style="margin-bottom: 0.0001pt; text-indent: 0cm;"><span
<p class=MsoNormal style='margin-bottom:0cm;margin-bottom:.0001pt;text-indent:
+
style="font-size: 10pt; line-height: 200%;">&nbsp;</span></p>
0cm;text-autospace:none'><span style='font-size:10.0pt;line-height:200%'>&nbsp;</span></p>
+
<p class="MsoNormal"
 
+
style="margin-left: 17.85pt; text-indent: 0cm; text-align: justify;">The
<p class=MsoNormal style='margin-left:17.85pt;text-indent:0cm'>The two larger
+
two larger
proteins Rep78/68 play an essential role in viral genome integration and
+
proteins Rep78/68 play an essential role in viral genome integration
 +
and
 
regulation of AAV gene expression, whereas the smaller Rep proteins are
 
regulation of AAV gene expression, whereas the smaller Rep proteins are
involved in viral genome encapsidation. Rep proteins act both as repressors and
+
involved in viral genome encapsidation. Rep proteins act both as
activators of AAV transcription in respect to the absence and presence of
+
repressors and
helper viruses such as adenoviruses (Ad) or herpes simplex viruses (HSV) by interacting
+
activators of AAV transcription in respect to the absence and presence
with several cellular proteins (Nash, Chen, Salganik, &amp; Muzyczka, 2009).</p>
+
of
 
+
helper viruses such as adenoviruses (Ad) or herpes simplex viruses
<p class=MsoNormal style='margin-left:17.85pt;text-indent:0cm'>Furthermore, in
+
(HSV) by interacting
the absence of Rep proteins, as it is the case in recombinant AAVs, integration
+
with several cellular proteins (Nash, Chen, Salganik, &amp; Muzyczka,
of the viral genome into the human genome is rare and random. There are several
+
2009).</p>
hotspots for integration of wtAAV genomes such as the human chromosome 19q13.42,
+
<div style="text-align: justify;"></div>
known as the AAVSI site, but as well some other accessible chromatin regions
+
<p class="MsoNormal"
for preferred integration have been found (5p13.3 and 3p24.3). Integration into
+
style="margin-left: 17.85pt; text-indent: 0cm; text-align: justify;">Furthermore,
the human genome is mediated by the two regulatory proteins Rep68 and Rep78
+
in
driven by the AAV p5 promoter. The proteins bind to the Rep binding site (RBS)
+
the absence of Rep proteins, as it is the case in recombinant AAVs,
which is located within the inverted terminal repeats (ITRs). The minimal consensus
+
integration
Rep binding site (RBS) <span style='font-family:"Courier New"'>GAGT GAGC</span>
+
of the viral genome into the human genome is rare and random. There are
is found within the ITRs and in the p5 integration-efficient element (p5IEE) of
+
several
the p5 promoter (Hüser et al., 2010). Rep78/68 proteins possess DNA-binding
+
hotspots for integration of wtAAV genomes such as the human chromosome
(reference), helicase (reference) and site-specific endonuclease activity located
+
19q13.42,
within the first 200 amino acids (Davis, Wu, &amp; Owens, 2000). Since the N-terminal region is unique to the larger Rep
+
known as the AAVSI site, but as well some other accessible chromatin
proteins, the two smaller Rep proteins possess other biological functions.
+
regions
Rep52/40 gene expression is driven by the p19 promoter which is located within <i>rep</i>
+
for preferred integration have been found (5p13.3 and 3p24.3).
ORF and the proteins are involved in encapsidating the viral genome into the
+
Integration into
preformed capsids. Gene expression of these proteins is suppressed in absence
+
the human genome is mediated by the two regulatory proteins Rep68 and
 +
Rep78
 +
driven by the AAV p5 promoter. The proteins bind to the Rep binding
 +
site (RBS)
 +
which is located within the inverted terminal repeats (ITRs). The
 +
minimal consensus
 +
Rep binding site (RBS) <span style="font-family: &quot;Courier New&quot;;">GAGT
 +
GAGC</span>
 +
is found within the ITRs and in the p5 integration-efficient element
 +
(p5IEE) of
 +
the p5 promoter (Hüser et al., 2010). Rep78/68 proteins possess
 +
DNA-binding
 +
(reference), helicase (reference) and site-specific endonuclease
 +
activity located
 +
within the first 200 amino acids (Davis, Wu, &amp; Owens, 2000). Since
 +
the N-terminal region is unique to the larger Rep
 +
proteins, the two smaller Rep proteins possess other biological
 +
functions.
 +
Rep52/40 gene expression is driven by the p19 promoter which is located
 +
within <i>rep</i>
 +
ORF and the proteins are involved in encapsidating the viral genome
 +
into the
 +
preformed capsids. Gene expression of these proteins is suppressed in
 +
absence
 
of adenovirus infection by binding of Rep78/68 to the p5 promoter. Gene
 
of adenovirus infection by binding of Rep78/68 to the p5 promoter. Gene
expression of p19 and p40 is transacvtivated by the Rep proteins Rep78/68
+
expression of p19 and p40 is transacvtivated by the Rep proteins
 +
Rep78/68
 
during coinfection.</p>
 
during coinfection.</p>
 
+
<h5 style="margin-left: 0cm; text-indent: 0cm; text-align: justify;"><a
<h5 style='margin-left:0cm;text-indent:0cm'><a name="_Ref275633722"></a><a
+
name="_Toc274911369">Rep 78</a><span style='font-family:"Dutch801BT-Bold","serif"'>
+
</span></h5>
+
 
+
<div style='border:solid windowtext 1.0pt;padding:1.0pt 4.0pt 1.0pt 4.0pt;
+
margin-left:18.0pt;margin-right:0cm'>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'><u>Rep78 in
+
some seconds:</u></p>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>78 kDa</p>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>Endonuclease
+
activity </p>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>ATPase and helicase
+
activity </p>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>Regulate viral
+
gene expression</p>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>Involved in
+
genome integration into human chromosome</p>
+
 
+
</div>
+
 
+
<p class=MsoNormal style='margin-left:17.85pt;text-indent:0cm'>Regulated by the
+
p5 promoter, Rep78 is the largest non-structural protein found in the wtAAV. Besides
+
regulation of gene expression and viral genome replication, Rep78 has been
+
found to play a functional role in AAV site-specific integration into the human
+
genome (Hüser et al., 2010). In absence of Ad helper viruses, overexpression of
+
Rep78 leads to cell cycle arrest by interacting with cell-cycle regulating phosphatases
+
causing DNA damage by its intrinsic endonuclease activity (Berthet, Raj, Saudan, &amp; Beard, 2005) and induces apoptosis. Due to its ability to
+
bind to the Rep binding site (RBS) in the p5 integration-efficient element
+
(p5IEE) of the p5 promoter, Rep78 mediates gene expression and retain a
+
constant level of Rep proteins by suppressing transcriptional activity of the
+
p5 promoter in absence of Ad viruses (Yue et al., 2010). Interaction of Rep78 with cellular factors such as transcription
+
factors (Lackner &amp; Muzyczka, 2002) provides the basis for gene regulation
+
by Rep78 in associated with endogenous molecules. </p>
+
 
+
<h5 style='margin-left:0cm;text-indent:0cm'><a name="_Ref275633727"></a><a
+
 
name="_Toc274911370">Rep 68</a><u> </u></h5>
 
name="_Toc274911370">Rep 68</a><u> </u></h5>
 
+
<div
<div style='border:solid windowtext 1.0pt;padding:1.0pt 4.0pt 1.0pt 4.0pt;
+
style="border: 1pt solid windowtext; padding: 1pt 4pt; margin-left: 18pt; margin-right: 0cm;">
margin-left:18.0pt;margin-right:0cm'>
+
<p class="MsoNormal"
 
+
style="border: medium none ; padding: 0cm; text-indent: 0cm;"><u>Rep68
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'><u>Rep68 in
+
in
 
some seconds</u></p>
 
some seconds</u></p>
 
+
<p class="MsoNormal"
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>68 kDa</p>
+
style="border: medium none ; padding: 0cm; text-indent: 0cm;">68 kDa</p>
 
+
<p class="MsoNormal"
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>Endonuclease
+
style="border: medium none ; padding: 0cm; text-indent: 0cm;">Endonuclease
 
activity </p>
 
activity </p>
 
+
<p class="MsoNormal"
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>ATPase and
+
style="border: medium none ; padding: 0cm; text-indent: 0cm;">ATPase
 +
and
 
helicase activity </p>
 
helicase activity </p>
 
+
<p class="MsoNormal"
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>Regulate
+
style="border: medium none ; padding: 0cm; text-indent: 0cm;">Regulate
 
gene expression</p>
 
gene expression</p>
 
+
<p class="MsoNormal"
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>Involved in
+
style="border: medium none ; padding: 0cm; text-indent: 0cm;">Involved
 +
in
 
genome integration into human chromosome</p>
 
genome integration into human chromosome</p>
 
 
</div>
 
</div>
 
+
<p class="MsoNormal"
<p class=MsoNormal style='margin-left:17.85pt;text-indent:0cm'>Rep68 is a
+
style="margin-left: 17.85pt; text-indent: 0cm; text-align: justify;">Rep68
regulatory protein driven by the p5 promoter with an apparent molecular weight
+
is a
of 68 kDa lacking 92 amino acids from the carboxy terminus due to splicing of
+
regulatory protein driven by the p5 promoter with an apparent molecular
 +
weight
 +
of 68 kDa lacking 92 amino acids from the carboxy terminus due to
 +
splicing of
 
mRNA coding for the two larger Rep proteins.</p>
 
mRNA coding for the two larger Rep proteins.</p>
 
+
<div style="text-align: justify;"></div>
<p class=MsoNormal style='margin-left:17.85pt;text-indent:0cm'>The non-structural
+
<p class="MsoNormal"
protein Rep68 belongs to the superfamily 3 (SF3) helicase found in other small
+
style="margin-left: 17.85pt; text-indent: 0cm; text-align: justify;">The
DNA and RNA viruses such as simian virus 40 (SV40) and bovine papillomavirus (Mansilla-Soto et al., 2009). Formation of oligomeric complexes of Rep proteins provides
+
non-structural
the basis for the functional versatility of the two larger regulatory proteins.
+
protein Rep68 belongs to the superfamily 3 (SF3) helicase found in
The AAA<sup>+</sup> motor domain is known to function as an initiator for
+
other small
oligomerization of the Rep proteins. The cooperative effect of both domains
+
DNA and RNA viruses such as simian virus 40 (SV40) and bovine
 +
papillomavirus (Mansilla-Soto et al., 2009). Formation of oligomeric
 +
complexes of Rep proteins provides
 +
the basis for the functional versatility of the two larger regulatory
 +
proteins.
 +
The AAA<sup>+</sup> motor domain is known to function as an initiator
 +
for
 +
oligomerization of the Rep proteins. The cooperative effect of both
 +
domains
 
appears to be further regulated by ATP binding as well as different DNA
 
appears to be further regulated by ATP binding as well as different DNA
 
substrates such as dsDNA and ssDNA. Assembly of different nucleoprotein
 
substrates such as dsDNA and ssDNA. Assembly of different nucleoprotein
structures suggest that viral replication and genome integration is regulated
+
structures suggest that viral replication and genome integration is
and controlled by distinct Rep complexes which means that in presence of dsDNA
+
regulated
Rep68 assembles to smaller complexes than in presence of ssDNA resulting in
+
and controlled by distinct Rep complexes which means that in presence
 +
of dsDNA
 +
Rep68 assembles to smaller complexes than in presence of ssDNA
 +
resulting in
 
octamers. </p>
 
octamers. </p>
 
+
<br>
<h5 style='margin-left:0cm;text-indent:0cm'><a name="_Toc274911372">Rep52</a></h5>
+
<p class="MsoNormal" style="text-indent: 0cm; page-break-after: avoid;">&nbsp;</p>
 
+
<p class="MsoNormal">&nbsp;</p>
<div style='border:solid windowtext 1.0pt;padding:1.0pt 4.0pt 1.0pt 4.0pt;
+
margin-left:18.0pt;margin-right:0cm'>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'><u>Rep52 in
+
some seconds</u></p>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>52 kDa</p>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>ATPase and
+
helicase activity </p>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>Involved in
+
genome encapsidation</p>
+
 
+
</div>
+
 
+
<p class=MsoNormal style='margin-left:17.85pt;text-indent:0cm'>Rep 52 is under
+
the control of the p19 promoter and shares the same N-terminus with Rep78. It
+
was shown that Rep52 possesses helicase and ATPase activity with 3´-5´polarity (Smith &amp; Kotin, 1998). Despite the helicase activity, Rep52 and Rep78 share a
+
putative zinc-finger domain, which suggest interactions with diverse cellular
+
factors (Nash, Chen, Salganik, &amp; Muzyczka, 2009) such as transcription
+
factors (Lackner &amp; Muzyczka, 2002) and TATA-binding proteins (Hermonat, Santin, Batchu, &amp; Zhan, 1998).</p>
+
 
+
<h5 style='margin-left:0cm;text-indent:0cm'><a name="_Toc274911371">Rep40</a></h5>
+
 
+
<div style='border:solid windowtext 1.0pt;padding:1.0pt 4.0pt 1.0pt 4.0pt;
+
margin-left:18.0pt;margin-right:0cm'>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'><u>Rep40 in
+
some minutes</u></p>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>40 kDa</p>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>ATPase and
+
helicase activity </p>
+
 
+
<p class=MsoNormal style='text-indent:0cm;border:none;padding:0cm'>Involved in
+
genome encapsidation</p>
+
 
+
</div>
+
 
+
<p class=MsoNormal style='margin-left:17.85pt;text-indent:0cm'>The smallest Rep
+
protein (Rep40) possesses helicase and ATPase activity as well, but does not
+
have strict requirements for DNA duplexes containing a 3´single-stranded end.
+
Rep40 helicase activity requires bivalent ions such as Mg<sup>2+</sup> or Mn<sup>2+</sup>
+
and is most active using ATP as substrate. Lacking the zinc finger domain,
+
present in Rep52, Rep40 requires dimerization for functional helicase activity (Collaco, Kalman-Maltese, Smith, Dignam, &amp; Trempe, 2003). Rep40/52 proteins are
+
required for translocation of the single-stranded, viral genomes into the
+
preformed capsids proceeding with the 3´end of the DNA (King, Dubielzig, Grimm, &amp; Kleinschmidt, 2001). </p>
+
 
+
<div align=center>
+
 
+
<table class=MsoTableGrid border=1 cellspacing=0 cellpadding=0 align=left
+
style='border-collapse:collapse;border:none;margin-left:-2.25pt;margin-right:
+
-2.25pt'>
+
<tr style='height:13.7pt'>
+
  <td width=285 valign=top style='width:214.0pt;border:solid windowtext 1.0pt;
+
  padding:0cm 5.4pt 0cm 5.4pt;height:13.7pt'>
+
  <p class=MsoNormal style='text-indent:0cm'><img width=270 height=232
+
  id="Picture 8" src="Rep%20proteins_files/image002.jpg"></p>
+
  <p class=MsoCaption>Figure 9: Crystal structure of the SF-3 helicase (PDB: 1SH9).</p>
+
  </td>
+
</tr>
+
</table>
+
 
+
</div>
+
 
+
<p class=MsoNormal style='text-indent:0cm;page-break-after:avoid'>&nbsp;</p>
+
 
+
<p class=MsoNormal>&nbsp;</p>
+
 
+
</div>
+
  
 
</html>
 
</html>

Revision as of 23:48, 26 October 2010


[AAV2]-Rep68ex

Freiburg10 ReplicationBricks 3.png

 

Rep proteins

Overview

The Adeno-associated virus (AAV) consists of two open reading frames (ORF), rep and cap ORF. The four non-structural rep genes are driven by two promoters located at map units 5 (p5 promoter) and 19 (p19 promoter). Rep proteins are involved in genome encapsidation (reference), regulation of gene expression (reference) and replication of the viral genome (reference).

Figure 8: Genomic organization of the AAV-2 genome. The rep gene codes for four non-structural proteins – Rep40, Rep52, Rep68 and Rep78 – which are involved in gene regulation, genime encapsiation and viral DNA integration.

 

The two larger proteins Rep78/68 play an essential role in viral genome integration and regulation of AAV gene expression, whereas the smaller Rep proteins are involved in viral genome encapsidation. Rep proteins act both as repressors and activators of AAV transcription in respect to the absence and presence of helper viruses such as adenoviruses (Ad) or herpes simplex viruses (HSV) by interacting with several cellular proteins (Nash, Chen, Salganik, & Muzyczka, 2009).

Furthermore, in the absence of Rep proteins, as it is the case in recombinant AAVs, integration of the viral genome into the human genome is rare and random. There are several hotspots for integration of wtAAV genomes such as the human chromosome 19q13.42, known as the AAVSI site, but as well some other accessible chromatin regions for preferred integration have been found (5p13.3 and 3p24.3). Integration into the human genome is mediated by the two regulatory proteins Rep68 and Rep78 driven by the AAV p5 promoter. The proteins bind to the Rep binding site (RBS) which is located within the inverted terminal repeats (ITRs). The minimal consensus Rep binding site (RBS) GAGT GAGC is found within the ITRs and in the p5 integration-efficient element (p5IEE) of the p5 promoter (Hüser et al., 2010). Rep78/68 proteins possess DNA-binding (reference), helicase (reference) and site-specific endonuclease activity located within the first 200 amino acids (Davis, Wu, & Owens, 2000). Since the N-terminal region is unique to the larger Rep proteins, the two smaller Rep proteins possess other biological functions. Rep52/40 gene expression is driven by the p19 promoter which is located within rep ORF and the proteins are involved in encapsidating the viral genome into the preformed capsids. Gene expression of these proteins is suppressed in absence of adenovirus infection by binding of Rep78/68 to the p5 promoter. Gene expression of p19 and p40 is transacvtivated by the Rep proteins Rep78/68 during coinfection.

Rep 68

Rep68 in some seconds

68 kDa

Endonuclease activity

ATPase and helicase activity

Regulate gene expression

Involved in genome integration into human chromosome

Rep68 is a regulatory protein driven by the p5 promoter with an apparent molecular weight of 68 kDa lacking 92 amino acids from the carboxy terminus due to splicing of mRNA coding for the two larger Rep proteins.

The non-structural protein Rep68 belongs to the superfamily 3 (SF3) helicase found in other small DNA and RNA viruses such as simian virus 40 (SV40) and bovine papillomavirus (Mansilla-Soto et al., 2009). Formation of oligomeric complexes of Rep proteins provides the basis for the functional versatility of the two larger regulatory proteins. The AAA+ motor domain is known to function as an initiator for oligomerization of the Rep proteins. The cooperative effect of both domains appears to be further regulated by ATP binding as well as different DNA substrates such as dsDNA and ssDNA. Assembly of different nucleoprotein structures suggest that viral replication and genome integration is regulated and controlled by distinct Rep complexes which means that in presence of dsDNA Rep68 assembles to smaller complexes than in presence of ssDNA resulting in octamers.


 

 

Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal BamHI site found at 725
    Illegal XhoI site found at 1592
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]