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The transmembrane homotrimer of ADAM 1 in model lipid bilayers
Author(s) -
Gan Siok Wan,
Xin Lin,
Torres Jaume
Publication year - 2007
Publication title -
protein science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.353
H-Index - 175
eISSN - 1469-896X
pISSN - 0961-8368
DOI - 10.1110/ps.062494307
Subject(s) - lipid bilayer fusion , transmembrane domain , transmembrane protein , popc , chemistry , peptide , lipid bilayer , peptide sequence , protein subunit , protein structure , biophysics , biochemistry , biology , membrane , receptor , gene
Fertilin is a transmembrane protein heterodimer formed by the two subunits fertilin α and fertilin β that plays an important role in sperm–egg fusion. Fertilin α and β are members of the ADAM family, and contain each one transmembrane α‐helix, and are termed ADAM 1 and ADAM 2, respectively. ADAM 1 is the subunit that contains a putative fusion peptide, and we have explored the possibility that the transmembrane α‐helical domain of ADAM 1 forms homotrimers, in common with other viral fusion proteins. Although this peptide was found to form various homooligomers in SDS, the infrared dichroic data obtained with the isotopically labeled peptide at specific positions is consistent with the presence of only one species in DMPC or POPC lipid bilayers. Comparison of the experimental orientational data with molecular dynamics simulations performed with sequence homologues of ADAM 1 show that the species present in lipid bilayers is only consistent with an evolutionarily conserved homotrimeric model for which we provide a backbone structure. These results support a model where ADAM 1 forms homotrimers as a step to create a fusion active intermediate.