1b3e

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spinqualitylabelsall models 1b3e, resolution 2.5Å Show:Asymmetric Unit Biological Assembly Drag the structure with the mouse to rotate   Export Animated Image

HUMAN SERUM TRANSFERRIN, N-TERMINAL LOBE, EXPRESSED IN PICHIA PASTORIS

Contents 1 Overview 2 Disease 3 About this Structure 4 Reference

Overview

The ferric form of the N-lobe of human serum transferrin (Fe(III)-hTF/2N), has been expressed at high levels in Pichia pastoris. The Fe(III)-hTF/2N, was crystallized in the space group P41212, and X-ray crystallography was, used to solve the structure of the recombinant protein at 2.5 A, resolution. This represents only the second P. pastoris-derived protein, structure determined to date, and allows the comparison of the structures, of recombinant Fe(III)-hTF/2N expressed in P. pastoris and mammalian cells, with serum-derived transferrin. The polypeptide folding pattern is, essentially identical in all of the three proteins. Mass spectroscopic, analyses of P. pastoris- hTF/2N and proteolytically derived fragments, revealed glycosylation of Ser-32 with a single hexose. This represents the, first localization of an O-linked glycan in a P. pastoris-derived protein., Because of its distance from the iron-binding site, glycosylation of, Ser-32 should not affect the iron-binding properties of hTF/2N expressed, in P. pastoris, making this an excellent expression system for the, production of hTF/2N.

Disease

Known diseases associated with this structure: Atransferrinemia OMIM:[190000], Iron deficiency anemia, susceptibility to OMIM:[190000]

About this Structure

1B3E is a Single protein structure of sequence from Homo sapiens with FE and CO3 as ligands. Full crystallographic information is available from OCA.

Reference

X-ray crystallography and mass spectroscopy reveal that the N-lobe of human transferrin expressed in Pichia pastoris is folded correctly but is glycosylated on serine-32., Bewley MC, Tam BM, Grewal J, He S, Shewry S, Murphy ME, Mason AB, Woodworth RC, Baker EN, MacGillivray RT, Biochemistry. 1999 Feb 23;38(8):2535-41. PMID:10029548

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