Gene structure and sequence comparisons of the eye lens specific protein, filensin, from rat and mouse: implications for protein classification and assembly

S Masaki, RA Quinlan - Gene, 1997 - Elsevier
S Masaki, RA Quinlan
Gene, 1997Elsevier
The full length cDNA sequences of rat and mouse filensin are presented, as well as the
structure of the rat filensin gene. This gene spanned 31kb and included seven introns. The
first six introns were conserved in position and phase with those found in the intermediate
filament (IF) protein genes of the type II (type II keratin), type III (vimentin) and type V (lamin).
The last intron of the filensin was unique. As none of the filensin intron positions coincided
with those unique to type I, II or IV genes, it appears that filensin is most similar to type III …
The full length cDNA sequences of rat and mouse filensin are presented, as well as the structure of the rat filensin gene. This gene spanned 31kb and included seven introns. The first six introns were conserved in position and phase with those found in the intermediate filament (IF) protein genes of the type II (type II keratin), type III (vimentin) and type V (lamin). The last intron of the filensin was unique. As none of the filensin intron positions coincided with those unique to type I, II or IV genes, it appears that filensin is most similar to type III genes. Comparison of the deduced amino acid sequences for rat and mouse filensin with those of cow and chick, and with other species of IF proteins, indicated the C-terminal non-α-helical tail domain of filensin to be one of the most divergent yet found in the vertebrate IF family. The tail domain had three conserved regions which are interrupted with two regions with lower identity. Two motifs, (1) PGDVPDGxxISKAF; and (2) KVEVVESIEKxxxxxIQTYEETxxIVET, were identified as sequences which were particularly highly conserved across species. Coassembly studies using CP49 and a physiologically derived 53kDa-fragment of filensin showed the motif (2) was not required for filament assembly in vitro. These data strengthen the view that the C-terminal non-α-helical domain of filensin contributes in more than one way to filensin function in the lens.
Elsevier