Molecular structure of the human desmoplakin I and II amino terminus.

Abstract

Desmoplakins (DPs) I and II are closely related proteins found in the innermost region of the desmosomal plaque, which serves as a cell surface attachment site for cytoplasmic intermediate filaments. Overlapping cDNA clones comprising 9.2 kilobases of DP-I, predicted to encode a full-length 310-kDa polypeptide (2677 amino acid residues), have now been identified. Here we report the predicted protein sequence and structural analysis of the N terminus of DP, extending our previous study of the rod and carboxyl domains. The N terminus contains groups of heptad repeats that are predicted to form at least two major alpha-helical-rich bundles. Unlike the rod and carboxyl domains, the N terminus did not display a periodic distribution of charged residues. Northern blot mapping and genomic sequence analysis were also undertaken to examine the organization of the DP mRNAs. A 1-kilobase intron was located at the 3' boundary of a DP-I-specific region; however, instead of an intron at the 5' junction, a possible splice donor site was observed within a potential coding sequence, suggesting alternative RNA splicing from an internal donor site.