The conformational analysis of spider dragline silks is difficult because of the amorphous character of the silks. In this article, the fractions of several conformations were determined for three 47-mer peptides, (Glu)(4)(Ala)(6)Gly (Gly) under bar ((12) under bar)(Ala) under bar ((13) under bar)(Gly) under bar ((14) under bar)GlnGlyGlyTyrGlyGlyLeuGlySerGln (Gly) under bar ((25) under bar)(Ala) under bar ((26) under bar)(Gly) under bar ((27) under bar)-ArgGlyGlyLeuGlyGlyGln-(Gly) under bar ((35) under bar)(Ala) under bar ((36) under bar)(Gly) under bar ((37) under bar)(Ala) under bar (6)(Glu)(4), with three underlined C-13-labeled blocks using a C-13 CP/MAS NMR method. The conformations of the C-13-labeled sites change significantly depending on the location of the labeled blocks when treated with trifluoroacetic acid, low pH, and freeze-drying. The conformations of Ala(36) and Gly(37) residues are strongly influenced by the specific conformation of the (Ala)(6) sequence at the C-terminal side, but those of other residues, Ala(13) and Gly(14), and Ala(26) and Gly(27), are basically not influenced by the conformations of (Ala)(6). Through hydration of the beta-sheet peptide, sharp peaks with random coil could be observed depending on the position of the residue, and this result could be interpreted via the change in the Ramachandran map obtained from the molecular dynamics simulation.