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PDBsum entry 4gzr
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Structural genomics, unknown function
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PDB id
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4gzr
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Contents |
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58 a.a.
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77 a.a.
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61 a.a.
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80 a.a.
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References listed in PDB file
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Key reference
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Title
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Heterologous expression of mycobacterial esx complexes in escherichia coli for structural studies is facilitated by the use of maltose binding protein fusions.
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Authors
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M.A.Arbing,
S.Chan,
L.Harris,
E.Kuo,
T.T.Zhou,
C.J.Ahn,
L.Nguyen,
Q.He,
J.Lu,
P.T.Menchavez,
A.Shin,
T.Holton,
M.R.Sawaya,
D.Cascio,
D.Eisenberg.
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Ref.
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Plos One, 2013,
8,
e81753.
[DOI no: ]
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PubMed id
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Abstract
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The expression of heteroligomeric protein complexes for structural studies often
requires a special coexpression strategy. The reason is that the solubility and
proper folding of each subunit of the complex requires physical association with
other subunits of the complex. The genomes of pathogenic mycobacteria encode
many small protein complexes, implicated in bacterial fitness and pathogenicity,
whose characterization may be further complicated by insolubility upon
expression in Escherichia coli, the most common heterologous protein expression
host. As protein fusions have been shown to dramatically affect the solubility
of the proteins to which they are fused, we evaluated the ability of maltose
binding protein fusions to produce mycobacterial Esx protein complexes. A single
plasmid expression strategy using an N-terminal maltose binding protein fusion
to the CFP-10 homolog proved effective in producing soluble Esx protein
complexes, as determined by a small-scale expression and affinity purification
screen, and coupled with intracellular proteolytic cleavage of the maltose
binding protein moiety produced protein complexes of sufficient purity for
structural studies. In comparison, the expression of complexes with
hexahistidine affinity tags alone on the CFP-10 subunits failed to express in
amounts sufficient for biochemical characterization. Using this strategy, six
mycobacterial Esx complexes were expressed, purified to homogeneity, and
subjected to crystallization screening and the crystal structures of the
Mycobacterium abscessus EsxEF, M. smegmatis EsxGH, and M. tuberculosis EsxOP
complexes were determined. Maltose binding protein fusions are thus an effective
method for production of Esx complexes and this strategy may be applicable for
production of other protein complexes.
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