TY - JOUR
T1 - Differential splicing of the large sarcomeric protein nebulin during skeletal muscle development
AU - Buck, Danielle
AU - Hudson, Bryan D.
AU - Ottenheijm, Coen A.C.
AU - Labeit, Siegfried
AU - Granzier, Henk
N1 - Funding Information:
We are grateful to Luann Wyly, Arturo Garcia-Montano, Adam Hoying, Kevin Greer, and Gina Zhang for technical assistance. We thank Dr. Carol Gregorio for stimulating discussions and help with Western Blot experiments. Supported by the ERARE EU project NEMMYOP (SL). Danielle Buck received support from the University of Arizona UBRP undergraduate program (HHMI 52003749). Supported by National Institutes of Health, AR-053897 (HG).
PY - 2010/5
Y1 - 2010/5
N2 - We studied differential splicing of nebulin, a giant filamentous F-actin binding protein (Mr ∼700-800kDa) that is found in skeletal muscle. Nebulin spans the thin filament length, its C-terminus is anchored in the Z-disc, and its N-terminal region is located toward the thin filament pointed end. Various lines of evidence indicate that nebulin plays important roles in thin filament and Z-disc structure in skeletal muscle. In the present work we studied nebulin in a range of muscle types during postnatal development and performed transcript studies with a mouse nebulin exon microarray, developed by us, whose results were confirmed by RT-PCR. We also performed protein studies with high-resolution SDS-agarose gels and Western blots, and structural studies with electron microscopy. We found during postnatal development of the soleus muscle major changes in splicing in both the super-repeat region and the Z-disc region of nebulin; interestingly, these changes were absent in other muscle types. Three novel Z-disc exons, previously described in the mouse gene, were upregulated during postnatal development of soleus muscle and this was correlated with a significant increase in Z-disc width. These findings support the view that nebulin plays an important role in Z-disc width regulation. In summary, we discovered changes in both the super-repeat region and the Z-disc region of nebulin, that these changes are muscle-type specific, and that they correlate with differences in sarcomere structure.
AB - We studied differential splicing of nebulin, a giant filamentous F-actin binding protein (Mr ∼700-800kDa) that is found in skeletal muscle. Nebulin spans the thin filament length, its C-terminus is anchored in the Z-disc, and its N-terminal region is located toward the thin filament pointed end. Various lines of evidence indicate that nebulin plays important roles in thin filament and Z-disc structure in skeletal muscle. In the present work we studied nebulin in a range of muscle types during postnatal development and performed transcript studies with a mouse nebulin exon microarray, developed by us, whose results were confirmed by RT-PCR. We also performed protein studies with high-resolution SDS-agarose gels and Western blots, and structural studies with electron microscopy. We found during postnatal development of the soleus muscle major changes in splicing in both the super-repeat region and the Z-disc region of nebulin; interestingly, these changes were absent in other muscle types. Three novel Z-disc exons, previously described in the mouse gene, were upregulated during postnatal development of soleus muscle and this was correlated with a significant increase in Z-disc width. These findings support the view that nebulin plays an important role in Z-disc width regulation. In summary, we discovered changes in both the super-repeat region and the Z-disc region of nebulin, that these changes are muscle-type specific, and that they correlate with differences in sarcomere structure.
KW - Development
KW - Differential splicing
KW - Filamentous protein
KW - Sarcomere structure
KW - Skeletal muscle
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U2 - 10.1016/j.jsb.2010.02.014
DO - 10.1016/j.jsb.2010.02.014
M3 - Article
C2 - 20176113
AN - SCOPUS:77951974179
SN - 1047-8477
VL - 170
SP - 325
EP - 333
JO - Journal of Structural Biology
JF - Journal of Structural Biology
IS - 2
ER -