M. Neu scite author profile

We demonstrate here the applicability of X-ray scattering for studying molecular conformation of multimeric proteins in solution by using synchrotron radiation to extend the range of data collection to include medium angles (ca. 3-4 degrees). We have been able to define the solution structure of the dissimilatory nitrite reductase of Achromobacter xylosoxidans (AxNiR), an enzyme for which there are conflicting reports as to the nature of its multimeric structure. Quantitative interpretation of the X-ray scattering profile, based on a modeling study using the high-resolution crystal structure data for the nitrite reductase from the related organism Achromobacter cycloclastes (AcNiR), provides a detailed model for the trimeric structure of AxNiR in solution. Sedimentation equilibrium centrifugation gave an M(r) of 103,000, consistent with such a trimeric structure.

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Characterization and Structural Analysis of a Functional Human Serum Transferrin Variant and Implications for Receptor Recognition

Jb²,

Garratt³

et al. 1994

Biochemistry

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The nucleotide and amino acid substitutions leading to the only known functional variant of human serum transferrin have been characterized by sequencing of a peptide produced by cyanogen bromide digestion and genomic PCR coupled with cycle sequencing, respectively. There is an amino acid substitution at position 394 (Gly-->Arg) resulting from a mutational transition, G-->A, in the first nucleotide of the codon GGG. The Zn(2+)-, Al(3+)-, and Cu(2+)-binding properties of the variant, ascertained by UV difference spectra and, in the case of copper, protein fluorescence quenching, confirm that these metals binds to only one of the two sites. Solution X-ray scattering measurements indicate that the lobe (the C-lobe) containing the mutation remains "open" in the iron-bound state, and modeling studies suggest that this is a consequence of the formation of a salt bridge between Arg394 in the variant protein and Asp392, one of the iron-binding ligands in the C-lobe. This rationalizes for the first time the observed reduction in receptor affinity of the diferric variant protein for PHA-stimulated lymphocytes [Young, S.P., et al. (1984) Br. J. Haematol. 56, 581-587] and here repeated with K562 cells. These data lend support to the hypothesis that the closed conformation for both lobes contributes to receptor recognition.

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The mechanism of iron uptake by transferrins: the structure of an 18 kDa NII-domain fragment from duck ovotransferrin at 2.3 Å resolution

Lindley

Bajaj²,

Evans³

et al. 1993

Acta Cryst D

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The molecular structure of an iron-containing 18 kDa fragment of duck ovotransferrin, obtained by proteolysis of the intact protein, has been elucidated by protein crystallographic techniques at 2.3 A resolution. This structure supports a mechanism of iron uptake in the intact protein whereby the binding of the synergistic (bi)carbonate anion is followed by binding of the metal with the lobe in the open configuration. These stages are then followed by domain closure in which the aspartic acid residue plays a further key role, by forming an interdomain hydrogen-bond interaction in addition to serving as a ligand to the iron. This essential dual role is highlighted by model building studies on the C-terminal lobe of a known human variant. In this variant a mutation of a glycine by an arginine residue enables the aspartic acid to form an ion pair and reduce its effectiveness for both metal binding and domain closure. The X-ray structure of the 18 kDa fragment strongly suggests that the histidine residue present at the iron binding site of the intact protein and arising from the second interdomain connecting strand has been removed during the preparative proteolysis.

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M. Neu

X-ray solution scattering reveals conformational changes upon iron uptake in lactoferrin, serum and ovo-transferrins

X-ray scattering using synchrotron radiation shows nitrite reductase from Achromobacter xylosoxidans to be a trimer in solution

Characterization and Structural Analysis of a Functional Human Serum Transferrin Variant and Implications for Receptor Recognition

The mechanism of iron uptake by transferrins: the structure of an 18 kDa NII-domain fragment from duck ovotransferrin at 2.3 Å resolution

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