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Vol. 14, Issue 6, 2410-2424, June 2003
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Department of Cell Biology and Human Anatomy, University of California, Davis, Davis, California 95616
Submitted July 30, 2002;
Revised December 1, 2002;
Accepted February 11, 2003
Monitoring Editor: Vivek Malhotra
We have previously identified a Golgi-localized spectrin isoform by using
an antibody to the 
-subunit of erythrocyte spectrin. In this study, we
show that a screen of a 
gt11 expression library resulted in the
isolation of an 
5-kb partial cDNA from a Madin-Darby bovine kidney (MDBK)
cell line, which encoded a polypeptide of 1697 amino acids with low, but
detectable, sequence homology to spectrin (37%). A blast search revealed that
this clone overlaps with the 5' end of a recently identified spectrin
family member Syne-1B/Nesprin-1, an alternately transcribed gene with
muscle-specific forms that bind acetylcholine receptor and associate with the
nuclear envelope. By comparing the sequence of the MDBK clone with sequence
data from the human genome database, we have determined that this cDNA
represents a central portion of a very large gene (500 kb), encoding an
25-kb transcript that we refer to as Syne-1. Syne-1 encodes a large
polypeptide (8406 amino acids) with multiple spectrin repeats and a region at
its amino terminus with high homology to the actin binding domains of
conventional spectrins. Golgi localization for this spectrin-like protein was
demonstrated by expression of epitope-tagged fragments in MDBK and COS cells,
identifying two distinct Golgi binding sites, and by immunofluorescence
microscopy by using several different antibody preparations. One of the Golgi
binding domains on Syne-1 acts as a dominant negative inhibitor that alters
the structure of the Golgi complex, which collapses into a condensed structure
near the centrosome in transfected epithelial cells. We conclude that the
Syne-1 gene is expressed in a variety of forms that are multifunctional and
are capable of functioning at both the Golgi and the nuclear envelope, perhaps
linking the two organelles during muscle differentiation.
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