Experimental phasing for structure determination using membrane-protein crystals grown by the lipid cubic phase method
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Li, D. Pye, V.E. Caffrey, M., Experimental phasing for structure determination using membrane-protein crystals grown by the lipid cubic phase method, Acta Crystallographica Section D Biological Crystallography, 71, 2015, 104 - 122
Abstract
Despite the marked increase in the number of membrane-
protein structures solved using crystals grown by the lipid
cubic phase or
in meso
method, only ten have been
determined by SAD/MAD. This is likely to be a consequence
of the technical difficulties associated with handling proteins
and crystals in the sticky and viscous hosting mesophase that is
usually incubated in glass sandwich plates for the purposes of
crystallization. Here, a four-year campaign aimed at phasing
the
in meso
structure of the integral membrane diacylglycerol
kinase (DgkA) from
Escherichia coli
is reported. Heavy-atom
labelling of this small hydrophobic enzyme was attempted by
pre-labelling, co-crystallization, soaking, site-specific mercury
binding to genetically engineered single-cysteine mutants
and selenomethionine incorporation. Strategies and techni-
ques for special handling are reported, as well as the typical
results and the lessons learned for each of these approaches. In
addition, an assay to assess the accessibility of cysteine
residues in membrane proteins for mercury labelling is
introduced. The various techniques and strategies described
will provide a valuable reference for future experimental
phasing of membrane proteins where crystals are grown by the
lipid cubic phase method
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Sponsor: Science Foundation Ireland (SFI)
Grant Number: 12/IA/1255
Sponsor: Science Foundation Ireland (SFI)
Grant Number: 07/IN.1/B1836
Author's Homepage: http://people.tcd.ie/mcaffre
Type of material: Journal Article

