For T0362, we did almost all refinements in a dimer context. We first did a sidechain repacking using rosetta, then made an initial dimer by superimposing that monomer on 1s5u. Note: we looked at tr362, tr362.gromacs0, tr362.repack-nonPC, and tr362.gromacs0.repack-nonPC (that is, optimization with gromacs, repacking of sidechains by rosetta, and both) and picked the monomer that scored best with the unconstrained undertaker costfcn. The dimer was optimized through a cycle: undertaker (to make potentially large changes to backbone and sidechains) gromacs (to remove small clashes) rosetta repacking sidechains (except PRO and CYS) We adjusted the cost function of undertaker on each iteration, gradually increasing the cost of breaks and clashes. The first iteration was try20, the second try21, and the thrid try22. The changes at that point seemed to be below the resolution of the cost functions to discriminate between good and bad models. Refinement model 1 is try22-opt2 chain A, the final cycle after undertaker optimization. This is the refinement model that scores best with the undertaker try22 costfcn. Refinement model 2 is try21-opt2.unpack.gromacs0.repack-nonPC chain A. This is the refinement model that rosetta likes best of thost it repacked sidechains for. Refinement model 3 is try20-opt2 chain A, the first optimization by undertaker that got the sheet to continue between the monomers. It was optimized directly from the initial dimer, with strong constraints on the inter-monomer sheet. Refinement model 4 is try19-opt2 chain A, our second attempt at creating the continuous sheet between monomers (unsucccessful). Refinement model 5 is try18-opt2 chain A, our first attempt at creating the continuous sheet between monomers (unsucccessful).