Ross T. A. MacGillivray scite author profile

The N-lobe of human serum transferrin (hTF/2N) has been expressed in baby hamster kidney cells and crystallized in both orthorhombic (P212121) and tetragonal (P41212) space groups. Both crystal forms diffract to high resolution (1.6 and 1.8 A, respectively) and have been solved by molecular replacement. Subsequent refinement resulted in final models for the structure of hTF/2N that had crystallographic R-factors of 18.1 and 19.7% for the two crystal forms, respectively; these models represent the highest-resolution transferrin structures determined to date. The hTF/2N polypeptide has a folding pattern similar to those of other transferrins, including the presence of a deep cleft that contains the metal-binding site. In contrast to other transferrins, both crystal forms of hTF/2N display disorder at the iron-binding site; model building suggests that this disorder consists of alternative conformations of the synergistically bound carbonate anion, the side chain for Arg-124, and several solvent molecules. Subsequent refinement revealed that conformation A has an occupancy of 0.63-0. 65 and corresponds to the structure of the iron-binding site found in other transferrins. The alternative conformation B has an occupancy of 0.35-0.37; in this structure, the carbonate has rotated 30 degrees relative to the iron and the side chain for Arg-124 has moved to accommodate the new carbonate position. Several water molecules appear to stabilize the carbonate anion in the two conformations. These structures are consistent with the protonation of the carbonate and resulting partial removal of the anion from the metal; these events would occur prior to cleft opening and metal release.

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Aceruloplasminemia: molecular characterization of this disorder of iron metabolism.

Harris

Takahashi

Miyajima

et al. 1995

Proc. Natl. Acad. Sci. U.S.A.

521

274

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Ceruloplasmin is an abundant alpha 2-serum glycoprotein that contains 95% of the copper found in the plasma of vertebrate species. We report here on the identification of a genetic defect in the ceruloplasmin gene in a patient previously noted to have a total absence of circulating serum ceruloplasmin in association with late-onset retinal and basal ganglia degeneration. In this patient T2 (transverse relaxation time)-weighted magnetic resonance imaging of the brain revealed basal ganglia densities consistent with iron deposition, and liver biopsy confirmed the presence of excess iron. Although Southern blot analysis of the patient's DNA was normal, PCR amplification of 18 of the 19 exons composing the human ceruloplasmin gene revealed a distinct size difference in exon 7. DNA sequence analysis of this exon revealed a 5-bp insertion at amino acid 410, resulting in a frame-shift mutation and a truncated open reading frame. The validity of this mutation was confirmed by analysis of DNA from the patient's daughter, which revealed heterozygosity for this same 5-bp insertion. The presence of this mutation in conjunction with the clinical and pathologic findings demonstrates an essential role for ceruloplasmin in human biology and identifies aceruloplasminemia as an autosomal recessive disorder of iron metabolism. These findings support previous studies that identified ceruloplasmin as a ferroxidase and are remarkably consistent with recent studies on the essential role of a homologous copper oxidase in iron metabolism in yeast. The clinical and laboratory findings suggest that additional patients with movement disorders and nonclassical Wilson disease should be examined for ceruloplasmin gene mutations.

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Characterization of the complementary deoxyribonucleic acid and gene coding for human prothrombin

Degen¹,

MacGillivray²,

Davie³

1983

Biochemistry

310

183

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The DNA sequences of a complementary deoxyribonucleic acid (cDNA) and a portion of the gene coding for human prothrombin have been determined. The cDNA was 2005 base pairs in length and was found to code for part of a leader sequence of 36 amino acids, 579 amino acids present in the mature protein, a stop codon, a noncoding region of 97 base pairs, and a poly(A) tail of 27 base pairs. It is proposed that the leader sequence consists of a signal sequence and a pro sequence for the mature protein that circulates in plasma. The 10 glutamic acid residues that are present in the amino-terminal region of prothrombin and are converted to gamma-carboxyglutamic acid in the mature protein are coded by only the GAG codon. The cDNA for prothrombin was also employed as a probe for screening a human fetal liver genomic DNA library. One of the strongly positive phage containing a human DNA insert of 5 kilobases was mapped with restriction endonucleases and sequenced. This DNA contained approximately half of the gene for human prothrombin and included six introns and five exons coding for amino acid residues 144-448. The two largest intervening sequences in the genomic DNA contained two copies each of AluI repetitive DNA.

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