Structure of human ferritin light subunit messenger RNA: comparison with heavy subunit message and functional implications.

Abstract
Ferritin has a protein shell of 5 .times. 106 Da [dalton] consisting of 24 subunits of 2 types, a heavier (H) chain of 21,000 Da and a lighter (L) chain of 19,000 Da. A cDNA [complementary DNA] clone of the messenger for the L subunit has been isolated from a human monocyte-like leukemia cell line. The clone contains an open reading frame of 522 nucleotides coding for an amino acid sequence matching 97% of the published sequence of human liver ferritin L subunit determined by sequenator, but it corresponds to only 55% of the reported amino acid sequence of a human liver H-subunit clone. Nevertheless, computer analysis of the subunit conformations predicted from the open reading frames of the L and H clones shows that most of the amino acid differences are conservative and would allow both subunits to form the 5 .alpha.-helices and .beta.-turns established by X-ray crystallography for horse spleen ferritin subunits. This suggests that L and H subunits are structurally interchangeable in forming an apoferritin shell. The 5'' untranslated region of our human ferritin L clone has considerable homology with that of the rat liver ferritin L clone in the region immediately upstream from the initiator codon, notably showing an identical sequence of 10 nucleotides at the same position in both subunit clones that may participate in regulating the known activation of ferritin mRNA after Fe administration. Extensive homology, including several blocks of nucleotides, was identified between the 3'' untranslated regions of the human and rat L clones. The common structural features of the H and L subunits lead us to conclude that they have diverged from a single ancestral gene.

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