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Pepsin fragmentation of botulinum type E neurotoxin: Isolation and characterization of 112, 48, 46, and 16 kD fragments (1992)

Giménez, J. A. ; DasGupta, B. R.

Springer

The protein journal 11 (1992), S. 255-264

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ISSN: 1573-4943

Keywords: Botulinum neurotoxin ; pepsin fragmentation ; chromatographic separation ; amino acid sequence

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Controlled digestion of ∼150 kD single chain botulinum type E neurotoxin with pepsin atpH 6.0 produced 112, 48, 46, and 16 kD fragments. These were chromatographically purified; their locations in the ∼1300 amino acid residue long neurotoxin were determined by identifying the amino terminal 10 residues of 112 and 48 kD fragments, 50 residues of 46 kD fragment, and 59 residues of 16 kD fragment. The 48 and 112 kD fragments contain the N-terminal segment of the neurotoxin (i.e., residue no. 1 to ∼425 and 1 to ∼990, respectively), the 46 kD fragment corresponds to ∼407 residues of the C-terminal region, and the 16 kD fragment contains the ∼140 residues from a segment nearer to the C-terminus. The 48 kD fragment is similar to the ∼50 kD N-terminal light chain of the ∼150 kD dichain neurotoxin, which is generated by tryptic cleavage of the ∼150 kD single chain neurotoxin, and is separated from the ∼100 kD C-terminal heavy chain by dithiothreitol (DTT) reduction of an intrachain disulfide bond in the presence of 2 M urea (Sathyamoorthy and DasGupta,J. Biol. Chem. 260, 10461, 1985). The pepsin-generated 48 kD fragment, unlike the light chain, was isolated without exposure to DTT and urea. The single chain 112 kD fragment following trypsin digestion yielded 48 and 60 kD fragments that were separable after DTT reduction of the intrachain disulfide which links them. The N-terminal residues of the smaller fragment were identical to that of the single chain 150 kD neurotoxin; the single chain 112 kD fragment is therefore the neurotoxin minus the ∼50 kD C-terminal half of the heavy chain. The biological activities of the 48 and 112 kD fragments can be demonstrated in permeabilized PC12 cells (Lomnethet al., J. Neurochem. 57, 1413, 1991); they inhibit norepinephrine release.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01024864

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Structural analysis of botulinum neurotoxin types A and E in aqueous and nonpolar solvents by Fourier transform infrared, second derivative UV absorption, and circular dichroic spectroscopies (1990)

Singh, Bal Ram ; Wasacz, F. M. ; Strand, Scott ; [et al.]

Springer

The protein journal 9 (1990), S. 705-713

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ISSN: 1573-4943

Keywords: Botulinum ; circular dichroism ; FT-IR ; secondary structures ; methanol ; neurotoxins

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Two pharmacologically similar but antigenically distinct botulinum neurotoxins, types A and E with a 1000-fold difference in their toxicity, were examined for nonpolar solvent-induced changes in secondary structures and polypeptide foldings to understand their structural differences and their comparative responsiveness/susceptibility to solvent perturbation. Analysis of far UV circular dichroic spectra in aqueous buffer for types A and E neurotoxins yielded the following: the α-helix contents were 27 and 20%; the β-sheets were 36 and 44%, the β-turns were 6.0 and 0%, and the random coils were 31 and 36%, respectively. Fourier transform infrared spectra, obtained by using attenuated total reflection technique, indicated high content of α-helix and β-pleated sheet structures for both neurotoxins as judged by strong bands at 1651 and 1633 cm−1 in the amide I frequency region and bands at 1314 and 1245 cm−1 in the amide III frequency region. The peak height ratio of 1314 and 1245 cm−1 bands, suggests that the type A neurotoxin has slightly higher α-helical content than the type E neurotoxin. These observations are consistent with the secondary structures estimated from far UV circular dichroic spectra. Fourier transform infrared spectra of the neurotoxins, exposed to methanol, showed sharp increases of the 1651 cm−1 band and a significant increase in the height of the 1314 cm−1 band, suggesting increases in the α-helical contents of the proteins. The changes were more in the type A than in the type E neurotoxin. The changes were reversible upon reexposure of the proteins to the aqueous buffer. Second derivative absorption spectroscopy demonstrated that methanol also induced changes in the degree of Tyr exposure to solvent. The results are discussed in terms of structural differences between the single and dichain neurotoxins and in terms of their mode of action.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01024765

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