Abstract
We examined the structure and the distribution of binding activities within bacterially produced fragments of Drosophila alpha spectrin. By electron microscopy, purified spectrin fragments resembled the corresponding regions of native spectrin. The contour lengths of recombinant spectrin molecules were proportional to the length of their coding sequences, which is consistent with current models of spectrin structure in which individual segments of the polypeptide contribute independently to the structure of the native molecule. We localized two sites at which calcium may regulate spectrin function. First, a site responsible for calmodulin binding to Drosophila alpha spectrin was identified near the junction of repetitive segments 14 and 15. Second, a domain of Drosophila alpha spectrin that includes two EF hand calcium-binding sequences bound 45Ca in blot overlay assays. EF hand sequences from a homologous domain of Drosophila alpha actinin did not bind calcium under the same conditions.
Highlights
W e examined the structure and the distribution of binding activitieswithin bacterially produced fragments of Drosophila a spectrin
EF hand sequences are found in the carboxyl-terminal segment of a spectrins, but calcium binding to this region of spectrin has not been examined
Purified recombinant spectrin fragments were examined by electron microscopy to assess the contribution of selected domains to the structure of the native molecule
Summary
W e examined the structure and the distribution of binding activitieswithin bacterially produced fragments of Drosophila a spectrin. EF hand sequences are found in the carboxyl-terminal segment of a spectrins, but calcium binding to this region of spectrin has not been examined.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
