Article ID Journal Published Year Pages File Type
5533217 Journal of Molecular Biology 2017 8 Pages PDF
Abstract

•TMD helix-helix interactions direct the oligomerization and folding of membrane proteins.•BLaTM 2.0 is a novel genetic tool to measure antiparallel TMD helix interactions.•The antiparallel interaction of the EmrE TMD4 is much stronger than the parallel one.•The BLaTM systems allow the comparison of parallel and antiparallel TMD interactions.

Parallel and antiparallel transmembrane helix-helix interactions support the folding and non-covalent assembly of many integral membrane proteins. While several genetic tools are currently in use to study parallel transmembrane helix-helix interactions, antiparallel associations have been difficult to determine. Here, we present a novel genetic approach, termed BLaTM 2.0, which can be used in combination with the recently presented BLaTM 1.2 to compare the efficiency of antiparallel and parallel transmembrane domain (TMD) interactions in a natural membrane. In a practical application of the BLaTM system, we find that the antiparallel interaction of TMD4, the known dimerization domain of the dual-topology small multidrug transporter EmrE, is sequence-specific and much stronger than the parallel one. This suggests that TMD4 has evolved to favor the formation of dual-topology EmrE dimers over single-topology dimers.

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Related Topics
Life Sciences Biochemistry, Genetics and Molecular Biology Cell Biology
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