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structural characterization of iron uptake from human transferrin

$344,326ZIAFY2009DKNIH

National Institute Of Diabetes And Digestive And Kidney Diseases

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Abstract

The following work was accomplished in 2009: Expression, Purification and Complexation of Bacterial and Human Proteins An expression system for TbpA has been developed and is capable of producing 0.2-0.4 mg/L of purified protein. A large scale preparation (27L) of E. coli transformed with a plasmid containing the gene for TbpA as well as an N-terminal His-Tag and a cleavage site are grown and induced with low level IPTG overnight and then harvested. We recently improved expression yields through targeted mutagenesis. We also introduced additional methionine residues for phasing of TbpA crystals. Purified TbpA forms crystals in 96 well plates which are being optimized. An expression system for TbpB has also been developed and is capable of producing 7-8 mg/L of purified protein. A medium scale preparation (4L) of E. coli transformed with a plasmid containing the gene for TbpB (a soluble construct lacking the N-terminal membrane anchor) as well as an N-terminal His-Tag and a cleavage site are grown and induced with high level IPTG for a few hours and then harvested. The cells are then lysed and membranes are separated via ultracentrifugation, and the soluble fraction is run over a Nickel-NTA column. The Nickel eluate is then further purified and can be bound to purified commercially available iron-bound human serum transferrin. Recently, we made the first in vitro complex of TbpA-TbpB bound to human transferring (hTf) and this complex will be characterized by single particle electron microscopy. We also have crystallized TbpA in complex with hTf and have obtained a partial molecular replacement solution for the crystal structure using the coordinates of hTf which we solved in 2007. We aim to provide structures of TbpA alone, TbpA-hTf, and TbpA-TbpB-hTf in the coming year.

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