Lien vers Pubmed [PMID] – 2842339
J Biol Chem 1988 Sep; 263(25): 12669-76
Mammalian cardiac muscle contains two myosin alkali light chains which are the major isoforms present in either atrial (MLC1A) or ventricular (MLC1V) muscle, and which are different from the fast skeletal muscle isoforms (MLC1F and MLC3F). The atrial isoform is also expressed in fetal skeletal and fetal ventricular muscle, where this isoform is also described as the fetal isoform MLC1emb. We have previously isolated a cDNA clone encoding part of the mouse MLC1A/MLC1emb isoform and have used this clone to demonstrate the identity of MLC1A and MLC1emb in the mouse. To date no information on the amino acid sequence of this mammalian atrial/fetal isoform has been available. Here we present the complete structure and sequence of the mouse MLC1A/MLC1emb gene, together with the predicted amino acid sequence of this isoform. Comparison of the MLC1A/MLC1emb gene and polypeptide with those of MLC1F and MLC1V suggests that MLC1A/MLC1emb and MLC1V were generated from a common ancestral gene. The NH2-terminal region of MLC1A/MLC1emb, thought to be involved in the actomyosin interaction, shows conservation with MLC1V but not with MLC1F suggesting a shared functional domain in these cardiac isoforms. Comparison with the chicken embryonic MLC (L23) suggests that although MLC1A/MLC1emb and L23 show very different patterns of expression, both during development and in the adult, they probably represent the homologous gene in these two species.