MODELLER usage for Homology Modelling: Result Analysis and choosing the best model — Part 3

<p>Greetings of the day to you! Welcome to another episode of the Bioinformatics Manual where we learn how to use all known and unknown kinds of bioinformatics tools and software. I just hope you&#39;re having an awesome day today, and this blog makes it even better. Let&#39;s begin!</p> <p>Today, we are going to look at how to analyze our results obtained from MODELLER in Part 2 of this blog series.</p> <p>In&nbsp;<a href="https://medium.com/@snippetsbio/modeller-usage-for-homology-modelling-tutorial-with-codes-in-5-simple-steps-part-1-8e83ee2ec2b7" rel="noopener">Part 1</a>&nbsp;of the blog series, we had a look at how to select the right template protein ( the protein on which we will be basing our model ) for homology modeling ( by checking for missing residues in the protein ) and generate a PIR file. In&nbsp;<a href="https://medium.com/@snippetsbio/modeller-usage-for-homology-modelling-tutorial-with-codes-in-5-simple-steps-part-2-9c888399db59" rel="noopener">Part 2</a>&nbsp;of the blog series, we wrote codes in Python to generate an alignment file between the template and target protein (the protein that we need to model ) and made 5 model structures of our target protein based on the template protein.</p> <p><a href="https://medium.com/@snippetsbio/modeller-usage-for-homology-modelling-result-analysis-and-choosing-the-best-model-part-3-4692cde57804"><strong>Click Here</strong></a></p>