This project exists to allow our external users (that's you) to create and keep track of issues relating to the CATH protein structure classification, e.g
We encourage anyone and everyone to add issues - no matter how trivial or complex they may seem. Perhaps you have a query because some part of our documentation is unclear, perhaps you have a wishlist for a feature you would love to see, or a problem/bug encountered on the web pages (hopefully not). Either way: all feedback is very welcome.
We cannot guarantee a timeline in which feature requests will be implemented, however the level of community interest in any particular issue will definitely be taken into account as we prioritise our work.
Notes:
+1 to let us know you consider this importantCATH is a bioinformatics resource that groups the 3D structures of protein domains into superfamilies (a collection of domains that are related by evolution). It uses this body of work (built over 20 years) to predict the location of these structural domains on over 50 million known protein sequences (in a sister resource: Gene3D). These data - alongside known information about protein function and functional sites - help us to understand and recognise patterns that occur during evolution. These patterns can be used to further our understanding of the mechanisms of evolution and to predict structure and function of previously unannotated protein sequences.
CATH: comprehensive structural and functional annotations for genome sequences. Sillitoe I, Lewis, TE, Cuff AL, Das S, Ashford P, Dawson NL, Furnham N, Laskowski RA, Lee D, Lees J, Lehtinen S, Studer R, Thornton JM, Orengo CA Nucleic Acids Res. 2015 Jan doi: 10.1093/nar/gku947
Gene3D: expanding the utility of domain assignments. Lam SD, Dawson NL, Das S, Sillitoe I, Ashford P, Lee D, Lehtinen S, Orengo CA, Lees JG. Nucleic Acids Res. 2016 Jan doi: 10.1093/nar/gkv1231