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Isolation and characterization of different C-terminal fragments of dystrophin expressed in Escherichia coli.


ABSTRACT: Dystrophin, the protein product of the Duchenne muscular dystrophy gene, is thought to belong to a family of membrane cytoskeletal proteins. Based on its deduced amino-acid sequence, it is postulated to have several distinct structural domains; an N-terminal region; a central, rod-shaped, domain; and a C-terminal domain [Koenig, Monaco & Kunkel (1988) Cell 53, 219-228]. The C-terminal domain is further divided into two regions; the first has some sequence similarity to slime mould alpha-actinin, and is rich in cysteine residues; this is followed by the C-terminal amino-acid sequence that is unique to dystrophin. Dystrophin is very difficult to purify in quantities sufficient for detailed studies of the structure/function relationships within the molecule. Therefore, in this study, we have expressed selected fragments of the C-terminal region of dystrophin, as fusion proteins, in Escherichia coli. Importantly, we describe the first successful purification, from E. coli lysates, of large quantities of fragments of dystrophin in a soluble form. The first fragment, termed CT-1, encodes the C-terminal 201 amino acids of the protein; the second, termed CT-2, spans the cysteine-rich region of the C-terminal domain. These fusion proteins were identified by their mobility in SDS/PAGE, by their interaction with appropriate affinity columns and by their reactivity with anti-dystrophin antibodies. The fragment CT-2, which spans a region containing putative EF-hand-like sequences, was found to bind Ca2+ in 45Ca2+ overlay experiments. In addition, we have discovered that the fragment CT-1, but not fragment CT-2, interacts specifically with the E. coli DnaK gene product [analogue of heat shock protein 70 (hsp70)]. This interaction is disrupted, in vitro, by the addition of ATP. Our results indicate that the two C-terminal fragments of dystrophin have differing biophysical properties, indicating that they may play distinct roles in the function of the protein.

SUBMITTER: Milner RE 

PROVIDER: S-EPMC1131991 | biostudies-other | 1992 Dec

REPOSITORIES: biostudies-other

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