Mark G. Teese scite author profile

Transmembrane (TM) helices of integral membrane proteins can facilitate strong and specific noncovalent protein-protein interactions. Mutagenesis and structural analyses have revealed numerous examples in which the interaction between TM helices of single-pass membrane proteins is dependent on a GxxxG or (small)xxx(small) motif. It is therefore tempting to use the presence of these simple motifs as an indicator of TM helix interactions. In this Current Topic review, we point out that these motifs are quite common, with more than 50% of single-pass TM domains containing a (small)xxx(small) motif. However, the actual interaction strength of motif-containing helices depends strongly on sequence context and membrane properties. In addition, recent studies have revealed several GxxxG-containing TM domains that interact via alternative interfaces involving hydrophobic, polar, aromatic, or even ionizable residues that do not form recognizable motifs. In multipass membrane proteins, GxxxG motifs can be important for protein folding, and not just oligomerization. Our current knowledge thus suggests that the presence of a GxxxG motif alone is a weak predictor of protein dimerization in the membrane.

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Gene identification and proteomic analysis of the esterases of the cotton bollworm, Helicoverpa armigera

Teese

Campbell

Scott

et al. 2010

Insect Biochemistry and Molecular Biology

102

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Overexpressed esterases in a fenvalerate resistant strain of the cotton bollworm, Helicoverpa armigera

Yang

Yuan

et al. 2011

Insect Biochemistry and Molecular Biology

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Mark G. Teese

Role of GxxxG Motifs in Transmembrane Domain Interactions

Gene identification and proteomic analysis of the esterases of the cotton bollworm, Helicoverpa armigera

Overexpressed esterases in a fenvalerate resistant strain of the cotton bollworm, Helicoverpa armigera

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