Human insulin-like growth-factor-binding protein. Low-molecular-mass form: protein sequence and cDNA cloning.
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Luthman H, Soderling-Barros J, Persson B, Engberg C, Stern I, Lake M, Franzen SA, Israelsson M, Raden B, Lindgren B, et al.
Human insulin-like growth-factor-binding protein. Low-molecular-mass form: protein sequence and cDNA cloning.
Eur J Biochem. 1989 Mar 15;180(2):259-65.
- PubMed ID
- 2466665 [ View in PubMed]
- Abstract
Two different insulin-like growth-factor (IGF)-binding proteins have been found in human blood, one of high molecular mass and dependent on growth hormone for synthesis, the other of low molecular mass and independent of growth hormone. The small IGF-binding protein is abundant in human amniotic fluid. Its amino acid sequence has now been determined by direct analysis of the protein and its proteolytic fragments. Also, by immunoscreening a partial cDNA clone was isolated from a human hepatoma cell line. The mature protein consists of 234 amino acids and is coded for by an mRNA of approximately 1700 nucleotides in length. The primary structure of the protein reveals 18 Cys residues in N-terminal and C-terminal clusters and an Arg-Gly-Asp peptide sequence, common to extracellular proteins binding to receptors of the integrin family. A protein-sequence polymorphism was detected at position Ile/Met-228, indicating possible allelic variation. The 3'-untranslated mRNA sequence has a high A + T content and shows five copies of an ATTTA sequence, which has been shown to be involved in the regulation of the stability of certain mRNAs coding for growth-regulating proteins.