{"id":26767,"date":"2024-01-27T09:34:59","date_gmt":"2024-01-27T09:34:59","guid":{"rendered":"https:\/\/www.ch.imperial.ac.uk\/rzepa\/blog\/?p=26767"},"modified":"2024-02-08T09:24:06","modified_gmt":"2024-02-08T09:24:06","slug":"3d-molecular-model-visualisation-3-million-atoms","status":"publish","type":"post","link":"https:\/\/www.ch.ic.ac.uk\/rzepa\/blog\/?p=26767","title":{"rendered":"3D Molecular model visualisation: 3 Million atoms +"},"content":{"rendered":"
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In the late 1980s, as I recollected here[1]<\/a><\/span> the equipment needed for real time molecular visualisation as it became known as was still expensive, requiring custom systems such as Evans and Sutherland PS390 workstations. One major breakthrough in making such techniques generally available on less specialised equipment was achieved by Roger Sayle[2]<\/a><\/span>, then working at Imperial College around 1990 and using a\u00a0Silicon Graphics workstation.\u00a0He greatly optimised up the rendering algorithms by creating a program called RasMol (after his initials), which meant such visualisations could very rapidly also be achieved even on a personal computer. Moving from vector display technology (the PS390) to\u00a0Raster\/bitmap graphics had allowed spacefilling representations of molecules containing 100s if not 1000s of atoms – and in turn enabled the new World-Wide Web to exploit the technique.[3]<\/a><\/span><\/p>\n

Whilst Rasmol is very much still around<\/a>, it also provided an inspiration<\/a> for successor programs such as Jmol (based on Java) and JSMol<\/a> (based on the Javascript language built into all modern web browsers). There are now many articles in the literature<\/a> describing this program. In 2008 the very first post on this blog described how run it in a WordPress instance[4]<\/a><\/span>.<\/p>\n

Now a new milestone in molecular visualisation has been reached – the ability to display 3 million atoms! Bob Hanson has just released Jmol\/JSmol 16.1.51<\/a> which supports the BinaryCIF file format. An example of the power of both program and this new format is illustrated with the protein 8glv[5]<\/a><\/span> which contains 3 million atoms (the bcif file itself is only 47.4 Mb).<\/p>\n

The Jmol\/JSmol script to load it is:<\/p>\n

t = now();    \r\n     set autobond false;\r\n     load =8glv.bcif filter \"*.CA\";\r\n     spacefill on;\r\n     color chain;\r\n     print now(t);<\/code><\/pre>\n
and the actual rendering takes just 10-20 seconds. You can see from the screenshots below\u2021<\/sup> that when it is zoomed in, it really does show individual atoms! Who knows what the practical atom limit is, but it is almost certainly more than three million! And it may even be possible on a mobile phone!<\/p>\n\n\t\t