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Fig. 1. Structure of the dgn-1 gene and product. (A) Coding
(gray) and non-coding (white) exons of dgn-1; regions corresponding
to 
- and ß-DG, the site of /ß cleavage in vertebrates
(arrowhead), and the extent of the cg121 deletion are indicated.
(B) Three regions of similarity to vertebrate (mouse) and
Drosophila DGs were identified, corresponding to the N-terminal
domain of -DG, the C-terminal region of vertebrate -DG plus
extracellular region of ß-DG (core domain), and the ß-DG cytoplasmic
domain. A transmembrane (TM) region follows the core. Amino acids retained in
a majority of the sequences are shown in color (N-terminal, purple; core and
transmembrane, green; cytoplasmic, red), similar residues in gray. Two
additional predicted DG-like proteins in C. elegans, DGN-2 and DGN-3,
contain a core domain but lack similarity to DG outside of the core (not
shown). Conserved cysteine pairs (
) in N-terminal and core domains,
conserved predicted N-glycosylation sites (•) in the core
domain, and the /ß cleavage sitein vertebrate DG (
) are
indicated. A 20-residue threonine-rich region in the DGN-1 N-terminal domain
may function as a mucin-like region. Residues mediating interaction of the
ß-DG cytoplasmic tail with WW/SH3 proteins such as dystrophin are
indicated (asterisks). (C) Pairwise sequence similarity (% identity/%
similarity) between conserved regions. Regions of similarity were identified
by BLAST (Altschul et al.,
1990) and sequence alignments constructed using Clustal W
(Thompson et al., 1994).
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