I've ended up with the structures of a dozen or so proteins predicted by AlphaFold2 by happenstance. The proteins are all orthologs. The provenance of the sequences is transcriptomic (de novo assemblies, to be specific).

I'd like to try and do something with these structures, but I am drawing a blank on ideas. I was hoping the Biostars community could perhaps suggest some avenues of inquiry I could explore with these structure predictions.

You can show the domain annotation in iCn3D. Go to https://www.ncbi.nlm.nih.gov/Structure/icn3d/full.html, click "File > Open File > PDB file" and then "Analysis > Seq. & Annotations", e.g., https://www.ncbi.nlm.nih.gov/Structure/icn3d/full.html?afid=A0A061AD48&showanno=1

Since they are orthologs the structures are likely to be very similar (if not identical), so for practical purposes it is as if you have only one structure. Unless I knew something about these proteins that can be tested or highlighted by having a structure, I would not do anything beyond making a pretty picture for lab meetings, or to entice inquiring rotation students.

• Are they enzymes? If so, it may be worth highlighting their catalytic site. If you know the substrate (or have a list of potential substrates), maybe try to dock it in the active site and show the predicted complex.
• Yet another option is to calculate the electrostatics and solvation, and see if anything interesting comes up.
• Are there splicing variants? If so, how do predicted structures differ among them?

For AlphaFold structures, iCn3D can also show SNP, ClinVar, and 3D domain annotations besides the conserved domain. One example is shown in this URL with the UniProt ID Q08426: https://structure.ncbi.nlm.nih.gov/icn3d/share.html?AFQBUFHTYvwqQPdx6

Now you can align several AlphaFold or PDB structures in iCn3D using the menu "File > Align > Multiple Chains", e.g., https://www.ncbi.nlm.nih.gov/Structure/icn3d/full.html?chainalign=P69905_A,P01942_A,1HHO_A