Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)

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Danielson, P. et al.

Identification of a fourth opioid core sequence in a prodynorphin cDNA cloned from the brain of the amphibian, Bufo marinus: deciphering the evolution of prodynorphin and proenkephalin.

In mammals, prodynorphin codes for three C-terminally extended forms of leu-enkephalin. This is not the case for the anuran amphibian, Bufo marinus. A combination of 3'RACE, RT-PCR and 5'RACE protocols was used to clone and characterize a prodynorphin cDNA from the brain of this amphibian that contained two met-enkephalin sequences. One met-enkephalin sequence was located at the N-terminal of Met(5)-dynorphin A(1-17), and the other met-enkephalin sequence was located in the N-terminal region of B. marinus prodynorphin in a position that aligned with a pentapeptide met-enkephalin site in mammalian proenkephalin. The latter B. marinus met-enkephalin sequence is flanked by sets of paired basic proteolytic cleavage sites. In addition to the extra met-enkephalin sequence and the Met(5)-dynorphin A(1-17) sequence, the B. marinus prodynorphin contained two C-terminally extended forms of leu-enkephalin [alpha-neo-endorphin and dynorphin B(1-13)]. In the toad precursor the alpha-neo-endorphin sequence is identical to human alpha-neo-endorphin. The B. marinus dynorphin B(1-13) sequence differs from human dynorphin B(1-13) by one amino acid (Thr(12) vs. Val(12)). Steady-state analysis suggests that dynorphin B(1-13) and possibly alpha-neo-endorphin may be cleaved to yield leu-enkephalin as an end-product in the amphibian brain. Finally, the alignment of the extra met-enkephalin sequence in the N-terminal of B. marinus prodynorphin with the corresponding met-enkephalin site in mammalian proenkephalin adds support to the hypothesis that the prodynorphin gene arose as a duplication of the proenkephalin gene.[1]

References

Identification of a fourth opioid core sequence in a prodynorphin cDNA cloned from the brain of the amphibian, Bufo marinus: deciphering the evolution of prodynorphin and proenkephalin. Danielson, P., Walker, D., Alrubaian, J., Dores, R.M. Neuroendocrinology (2002) [Pubmed]

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