A novel neurotoxin, cobrotoxin b, from Naja naja atra (Taiwan cobra) venom: purification, characterization, and gene organization

Chang, Long-Sen; Chou, Y. C.; Lin, Shinne-Ren; Wu, B. N.; Lin, J.; Hong, E.; Sun, Y. J.; Hsiao, C. D.

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A novel neurotoxin, cobrotoxin b, from Naja naja atra (Taiwan cobra) venom: purification, characterization, and gene organization
Citation	Chang LS, Chou YC, Lin SR, Wu BN, Lin J, Hong E, Sun YJ, Hsiao CD. J. Biochem. 1997; 122(6): 1252-1259.
Affiliation	Department of Biochemistry and Pharmacology, Kaohsiung Medical College, Taiwan. lschang@mail.nsysu.edu.tw
Copyright	(Copyright © 1997, Oxford University Press)
DOI	unavailable
PMID	9498573
Abstract	A novel neurotoxin, cobrotoxin b, was isolated from Naja naja atra (Taiwan cobra) venom by successive chromatographies on gel filtration and SP-Sephadex C-25 columns. The yield of this novel toxin was 5% of that of cobrotoxin from the same venom. Its neurotoxicity determined as the inhibition of acetylcholine-induced muscle contractions was approximately 50% of that of cobrotoxin. Cobrotoxin b consists of 61 amino acid residues including 8 cysteine residues. Moreover, there are 12 amino acid substitutions between cobrotoxin b and cobrotoxin. The genomic DNA, with a size of 2,386bp, encoding the precursor of cobrotoxin b was isolated from the liver of N. naja atra. The gene consists of three exons separated by two introns. This exon/intron structure is essentially the same as that reported for the cobrotoxin gene. Moreover, the nucleotide sequences of the two neurotoxin genes exhibit 92% identity. These results highly suggest that the cobrotoxin b and cobrotoxin genes are derived from a common ancestor. Comparative analyses of cobrotoxin b and cobrotoxin precursors showed that the protein-coding regions of the exons are more diverse than introns, except for in the signal peptide domain. This indicates that the protein-coding regions may have arised via accelerated evolution. BLAST searches for sequence similarity in the GeneBank databases showed that intron 1 of the cobrotoxin b and cobrotoxin genes encodes a small nucleolar RNA (snoRNA). However, the snoRNA gene is absent from the gene encoding the Laticauda semifasciata erabutoxin c precursor (L. semifasciata and N. naja atra are sea and land snakes, respectively). Since previous studies suggested the potential mobility of snoRNA genes during evolution, we propose that intron insertions or deletions of snoRNA genes occurred with the evolutionary divergence between the sea snake and land snake neurotoxins. Language: en