Description
Duchenne muscular dystrophy (DMD) is a lethal, X-linked disease which occurs in approximately 1 in 3,500 male births. This disease is characterized by progressive muscle wasting and causes premature death. One of the earliest symptoms of this disease is mitochondrial dysfunction. Dystrophin is a protein found under the sarcolemma. The N terminus binds to actin and the C terminus binds to dystrophin glycoprotein complex (DGC). DMD is caused by mutations in the dystrophin gene. C. elegans possess an ortholog of dystrophin, DYS-1. Though there is evidence that C. elegans can be used as a model organism to model DMD, nematode DGC has not been well characterized. Additionally, while we know that mitochondrial dysfunction has been found in humans and other model organisms, this has not been well defined in C. elegans. In order to address these issues, we crossed the SJ4103 worm strain (myo-3p::GFP(mit)) with dys-1(cx18) in order to visualize and quantify changes in mitochondria in a dys-1 background. SJ4103;cx18 nematodes were found to have less mitochondrial than SJ4103 which suggests mitochondrial dysfunction does occur in dys-1 worms. Furthermore, mitochondrial dysfunction was studied by knocking down members of the DGC, dys-1, dyb-1, sgn-1, sgca-1, and sgcb-1 in SJ4103 strain. Knock down of each gene resulted in decrease in abundance of mitochondria which suggests that each member of the DGC contributes to the overall health of nematode muscle. The ORF of dyb-1 was successfully cloned and tagged with GFP in order to visualize this DGC member C. elegans. Imaging of the transgenic dyb-1::GFP worm shows green fluoresce expressed in which suggests that dyb-1 is a functional component of the muscle fibers. This project will enable us to better understand the effects of dystrophin deficiency on mitochondrial function as well as visualize the expression of certain members of the DGC in order to establish C. elegans as a good model organism to study this disease.
Details
Title
- Study of the expression pattern and tissue specific roles of the Caenorhabditis elegans dystrophin glycoprotein complex
Contributors
- Obrien, Shannon Nishino (Author)
- Mangone, Marco (Thesis director)
- Newbern, Jason (Committee member)
- Hrach, Heather (Committee member)
- School of Molecular Sciences (Contributor)
- School of Life Sciences (Contributor)
- Barrett, The Honors College (Contributor)
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2019-05
Resource Type
Collections this item is in