Spectrin Tetramer Formation Is Not Required for Viable Development in Drosophila |
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| Authors: | Mansi R Khanna Floyd J Mattie Kristen C Browder Megan D Radyk Stephanie E Crilly Katelyn J Bakerink Sandra L Harper David W Speicher Graham H Thomas |
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| Institution: | From the ‡Department of Biology and the Department of Biochemistry and Molecular Biology, The Pennsylvania State University, University Park, Pennsylvania 16802 and ;the §Systems Biology Division, The Wistar Institute, Philadelphia, Pennsylvania 19104 |
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| Abstract: | The dominant paradigm for spectrin function is that (αβ)2-spectrin tetramers or higher order oligomers form membrane-associated two-dimensional networks in association with F-actin to reinforce the plasma membrane. Tetramerization is an essential event in such structures. We characterize the tetramerization interaction between α-spectrin and β-spectrins in Drosophila. Wild-type α-spectrin binds to both β- and βH-chains with high affinity, resembling other non-erythroid spectrins. However, α-specR22S, a tetramerization site mutant homologous to the pathological α-specR28S allele in humans, eliminates detectable binding to β-spectrin and reduces binding to βH-spectrin ∼1000-fold. Even though spectrins are essential proteins, α-spectrinR22S rescues α-spectrin mutants to adulthood with only minor phenotypes indicating that tetramerization, and thus conventional network formation, is not the essential function of non-erythroid spectrin. Our data provide the first rigorous test for the general requirement for tetramer-based non-erythroid spectrin networks throughout an organism and find that they have very limited roles, in direct contrast to the current paradigm. |
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| Keywords: | Cell Biology Cytoskeleton Drosophila Membrane Protein Protein Assembly Spectrin Membrane Skeleton |
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