Acta Cryst. (2001). D57, 1013-1019 [ doi:10.1107/S0907444901006394 ]
Abstract: The classical approach to building the amino-acid residues into the initial electron-density map requires days to weeks of a skilled investigator's time. Automating this procedure should not only save time, but has the potential to provide a more accurate starting model for input to refinement programs. The new software routine MAID builds the protein structure into the electron-density map in a series of sequential steps. The first step is the fitting of the secondary ![[alpha]](/logos/entities/alpha_rmgif.gif)
-helix and ![[beta]](/logos/entities/beta_rmgif.gif)
-sheet structures. These `fits' are then used to determine the local amino-acid sequence assignment. These assigned fits are then extended through the loop regions and fused with the neighboring sheet or helix. The program was tested on the unaveraged 2.5 Å selenomethionine multiple-wavelength anomalous dispersion (SMAD) electron-density map that was originally used to solve the structure of the 291-residue protein human heart short-chain L-3-hydroxyacyl-CoA dehydrogenase (SHAD). Inputting just the map density and the amino-acid sequence, MAID fitted 80% of the residues with an r.m.s.d. error of 0.43 Å for the main-chain atoms and 1.0 Å for all atoms without any user intervention. When tested on a higher quality 1.9 Å SMAD map, MAID correctly fitted 100% (418) of the residues. A major advantage of the MAID fitting procedure is that it maintains ideal bond lengths and angles and constrains ![[varphi]](/logos/entities/phiv_rmgif.gif)
/![[psi]](/logos/entities/psi_rmgif.gif)
angles to the appropriate Ramachandran regions. Recycling the output of this new routine through a partial structure-refinement program may have the potential to completely automate the fitting of electron-density maps.
Keywords: MAID; electron-density map fitting.
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