EVOLUTION OF VERTEBRATE IGM - COMPLETE AMINO-ACID-SEQUENCE OF THE CONSTANT REGION OF AMBYSTOMA-MEXICANUM MU CHAIN DEDUCED FROM CDNA SEQUENCE

cDNA clones coding for the constant region of the Mexican axolotl (Ambystoma mexicanum) mu heavy immunoglobulin chain were selected from total spleen RNA, using a cDNA polymerase chain reaction technique. The specific 5'-end primer was an oligonucleotide homologous to the J(H) segment of Xenopus laevis mu chain. One of the clones, JHA/3, corresponded to the complete constant region of the axolotl mu chain, consisting of a 1362-nucleotide sequence coding for a polypeptide of 454 amino acids followed in 3' direction by a 179-nucleotide untranslated region and a polyA+ tail. The axolotl C(mu) is divided into four typical domains (C(mu)1-C(mu)4) and can be aligned with the Xenopus C(mu) with an overall identity of 56% at the nucleotide level. Percent identities were particularly high between C(mu)1 (59%) and C(mu)4 (71%). The C-terminal 20-amino acid segment which constitutes the secretory part of the mu chain is strongly homologous to the equivalent sequences of chondrichthyans and of other tetrapods, including a conserved N-linked oligosaccharide, the penultimate cysteine and the C-terminal lysine. The four C(mu) domains of 13 vertebrate species ranging from chondrichthyans to mammals were aligned and compared at the amino acid level. The significant number of mu-specific residues which are conserved into each of the four C(mu) domains argues for a continuous line of evolution of the vertebrate mu chain. This notion was confirmed by the ability to reconstitute a consistent vertebrate evolution tree based on the phylogenic parsimony analysis of the C(mu)4 sequences.