From: chemistry-request at ccl.net <br />
To: chemistry-request at ccl.net<br />
Date: Wed Feb 12 16:50:09 2020<br />
Subject: 20.02.20 <span class="fancysmall">[CCG Webinar] In Silico Fragment-Based Drug Design: Approaches and Applications | Feb. 20 &amp; 27</span><br />

<pre>Join us for a free live webinar: In Silico Fragment-Based Drug Design: Approaches and Applications

Fragment-based drug design (FBDD) is a key approach in the discovery of high-quality drug candidates. As a compliment to biophysical FBDD methods, in silico FBDD uses structure-based approaches to rapidly design and screen large libraries of virtual compounds, allowing for the exploration of a much larger chemical space. The webinar will describe in silico FBDD methods ranging from combinatorial fragment design to scaffold-hopping in the receptor active site, along with approaches for fragment linking and growing. A method for generating a series of closely related derivatives through the reaction-based Combinatorial Library and Medicinal Chemistry Transformations applications in the MOE software will be presented. The use of pharmacophore models and 2D/3D descriptors to guide in silico FBDD processes will also be discussed.

Thursday, February 20
2:00 pm EST | In Silico Fragment-Based Drug Design: Approaches and Applications
----------------------------------------------------------------------------------
- Speaker: Valerie Campagna-Slater, Senior Applications Scientist, Chemical Computing Group
- Moderator: Alain Ajamian, Director of Business Development, Chemical Computing Group
- Register at: <a href="https://bit.ly/2vsbANX" target="_blank">https://bit.ly/2vsbANX</a>
 
Thursday, February 27
10:00 am EST | In Silico Fragment-Based Drug Design: Approaches and Applications
----------------------------------------------------------------------------------
- Speaker: Barbara Sander, Applications Scientist, Chemical Computing Group
- Moderator: Alain Ajamian, Director of Business Development, Chemical Computing Group
- Register at: <a href="https://bit.ly/2SjwCXQ" target="_blank">https://bit.ly/2SjwCXQ</a>
 
==================================================
About MOE: MOE is a leading drug discovery software platform that integrates visualization, modeling and simulations, as well as methodology development, in a single package. MOE scientific applications are used by medicinal chemists, biologists, crystallographers and computational chemists in pharmaceutical, biotechnology and academic research. For a more detailed software overview, please visit: <a href="http://www.chemcomp.com/software" target="_blank">http://www.chemcomp.com/software</a>
 
Try MOE: Request a trial version of MOE at <a href="http://www.chemcomp.com/Product-Trial_Request.htm" target="_blank">http://www.chemcomp.com/Product-Trial_Request.htm</a>
==================================================</pre>
<b>NOTE THAT E-MAIL ADDRESSES HAVE BEEN MODIFIED!!!</b><br />
All @ signs were changed to \a/ to fight spam. Before you send e-mail, you
need to change \a/ to @<br />
For example: change joe\a/big123comp.com to joe@big123comp.com<br />
<em>Please let colleagues know about conference listingts at
Computational Chemistry List Conference Page at</em>
<a href="http://www.ccl.net/chemistry/a/conferences/"
class="link">http://www.ccl.net/chemistry/a/conferences/</a>.