var polyviewDescription =

'			<strong> \n\
<a href="http://polyview.cchmc.org/polyview3d.html" \n\
target="_blank"><big>Polyview-3D</big></a> \n\
			</strong> \n\
 \n\
(by Alexey Porollo and Jarek Meller, Cincinnati OH USA) \n\
 \n\
makes it easy to construct \n\
publication-quality figures, or molecular views for Powerpoint slide \n\
presentations -- including animated views like the one at right. \n\
 \n\
You just fill out a user-friendly form -- you don`t need to know \n\
any command language. The images are generated by \n\
<a href="http://pymol.org" \n\
target="_blank">PyMol</a>, a software package popular with crystallographers, \n\
in part because of the beauty of its images. \n\
Then you can simply drag and drop them into Powerpoint. \n\
 \n\
 \n\
<br><br> \n\
 \n\
Optionally, you can customize the color for each chain, and you can \n\
highlight specific residues (shown at right in \n\
 \n\
<font color="blue"><b>blue</b></font> \n\
and \n\
<font color="red"><b>red</b></font>) -- or you can hide some chains. \n\
Chains can be rendered as secondary structure schematic \n\
cartoons (shown at right), spacefilled, or as surfaces. There are \n\
many other powerful options, including \n\
<a href="#consurf" \n\
>ConSurf</a> coloring, and animating multiple models \n\
(as for \n\
<a href="http://molmovdb.org" \n\
target="_blank">morphs between conformational changes</a>). \n\
 \n\
<br><br> \n\
 \n\
<b>Students can make molecular views for reports or homework</b> with Polyview-3D \n\
-- it`s that easy to use! \n\
';