Evolution of the insulin gene superfamily. Sequence of a preproinsulin-like growth factor cDNA from the Atlantic hagfish

Complementary DNAs encoding a preproinsulin-like growth factor (prepro-IGF) have been cloned from a primitive vertebrate species, the Atlantic hagfish, by using a DNA amplification strategy based on the polymerase chain reaction. A composite sequence containing a 414-nucleotide open reading frame en...

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Bibliographic Details
Published in:The Journal of biological chemistry 1991-02, Vol.266 (4), p.2397-2402
Main Authors: NAGAMATSU, S, SHU JIN CHAN, FALKMER, S, STEINER, D. F
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Base Sequence
Biological and medical sciences
Biological Evolution
Blotting, Northern
Cloning, Molecular
DNA
DNA - genetics
evolution
Fundamental and applied biological sciences. Psychology
genes
Genes. Genome
Genetic Variation
genetics
growth
Hagfishes - genetics
hormones
Humans
insulin-like growth factor
Introns
liver
Marine
Molecular and cellular biology
Molecular genetics
Molecular Sequence Data
Multigene Family
Myxine glutinosa
Organ Specificity - genetics
phylogeny
Polymerase Chain Reaction
Protein Precursors - genetics
Sequence Homology, Nucleic Acid
Somatomedins - genetics
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Summary:Complementary DNAs encoding a preproinsulin-like growth factor (prepro-IGF) have been cloned from a primitive vertebrate species, the Atlantic hagfish, by using a DNA amplification strategy based on the polymerase chain reaction. A composite sequence containing a 414-nucleotide open reading frame encoding 138 amino acids and 164 nucleotides in the 3'-untranslated region was obtained. The deduced partial sequence of hagfish prepro-IGF reveals that it is organized like the mammalian prepro-IGFs with an unusually large (greater than 39-amino acid) signal peptide (initiator methionine residue is missing), 29-amino acid B, 15-amino acid C, 21-amino acid A, 10-amino acid D, and 26-amino acid E domains. All the invariant residues necessary to form the correct tertiary fold of an insulin-like molecule have been conserved in hagfish IGF. Sequence comparisons revealed that the A and B domains of hagfish IGF are equally similar to those of human IGF-I (35 out of 50 amino acids) or IGF-II (37 out of 53 amino acids). In contrast, the similarity between hagfish and mammalian pro-IGFs in the C, D, and E domains is relatively low. Northern blot analysis of RNA isolated from hagfish brain, heart, liver, skeletal muscle, and islet organ, however, indicated that hagfish IGF, like mammalian IGF-I, is expressed predominantly in the liver as a 4.2-kilobase transcript. DNA blot analysis revealed that hagfish IGF is a single copy gene. The predicted sequence of hagfish prepro-IGF thus demonstrates that the divergence of the IGF and insulin genes occurred prior to the separation of the Agnatha and that the organization and tertiary structure of IGF have been well maintained throughout 550 million years of vertebrate evolution.
ISSN:0021-9258
1083-351X
DOI:10.1016/s0021-9258(18)52257-2