TY - JOUR
T1 - Isolation of Escherichia coli Mannitol Permease, EIImtl, Trapped in Amphipol A8-35 and Fluorescein-Labeled A8-35
AU - Opacic, Milena
AU - Giusti, Fabrice
AU - Popot, Jean-Luc
AU - Broos, Jaap
PY - 2014/10
Y1 - 2014/10
N2 - Amphipols (APols) are short amphipathic polymers that keep integral membrane proteins water-soluble while stabilizing them as compared to detergent solutions. In the present work, we have carried out functional and structural studies of a membrane transporter that had not been characterized in APol-trapped form yet, namely EIImtl, a dimeric mannitol permease from the inner membrane of Escherichia coli. A tryptophan-less and dozens of single-tryptophan (Trp) mutants of this transporter are available, making it possible to study the environment of specific locations in the protein. With few exceptions, the single-Trp mutants show a high mannitol-phosphorylation activity when in membranes, but, as variance with wild-type EIImtl, some of them lose most of their activity upon solubilization by neutral (PEG- or maltoside-based) detergents. Here, we present a protocol to isolate these detergent-sensitive mutants in active form using APol A8-35. Trapping with A8-35 keeps EIImtl soluble and functional in the absence of detergent. The specific phosphorylation activity of an APol-trapped Trp-less EIImtl mutant was found to be similar to 3x higher than the activity of the same protein in dodecylmaltoside. The preparations are suitable both for functional and for fluorescence spectroscopy studies. A fluorescein-labeled version of A8-35 has been synthesized and characterized. Exploratory studies were conducted to examine the environment of specific Trp locations in the transmembrane domain of EIImtl using Trp fluorescence quenching by water-soluble quenchers and by the fluorescein-labeled APol. This approach has the potential to provide information on the transmembrane topology of MPs.
AB - Amphipols (APols) are short amphipathic polymers that keep integral membrane proteins water-soluble while stabilizing them as compared to detergent solutions. In the present work, we have carried out functional and structural studies of a membrane transporter that had not been characterized in APol-trapped form yet, namely EIImtl, a dimeric mannitol permease from the inner membrane of Escherichia coli. A tryptophan-less and dozens of single-tryptophan (Trp) mutants of this transporter are available, making it possible to study the environment of specific locations in the protein. With few exceptions, the single-Trp mutants show a high mannitol-phosphorylation activity when in membranes, but, as variance with wild-type EIImtl, some of them lose most of their activity upon solubilization by neutral (PEG- or maltoside-based) detergents. Here, we present a protocol to isolate these detergent-sensitive mutants in active form using APol A8-35. Trapping with A8-35 keeps EIImtl soluble and functional in the absence of detergent. The specific phosphorylation activity of an APol-trapped Trp-less EIImtl mutant was found to be similar to 3x higher than the activity of the same protein in dodecylmaltoside. The preparations are suitable both for functional and for fluorescence spectroscopy studies. A fluorescein-labeled version of A8-35 has been synthesized and characterized. Exploratory studies were conducted to examine the environment of specific Trp locations in the transmembrane domain of EIImtl using Trp fluorescence quenching by water-soluble quenchers and by the fluorescein-labeled APol. This approach has the potential to provide information on the transmembrane topology of MPs.
KW - Membrane protein
KW - Fluorescent amphipol
KW - Fluorescence quenching
KW - Forster resonance energy transfer
KW - DEPENDENT PHOSPHOTRANSFERASE SYSTEM
KW - TRYPTOPHAN PHOSPHORESCENCE SPECTROSCOPY
KW - INDUCED CONFORMATIONAL-CHANGES
KW - MEMBRANE-PROTEINS
KW - ENZYME-II
KW - SARCOPLASMIC-RETICULUM
KW - TRANSPORT PROTEIN
KW - AQUEOUS-SOLUTIONS
KW - CYTOPLASMIC LOOP
KW - ION-CHANNEL
U2 - 10.1007/s00232-014-9691-7
DO - 10.1007/s00232-014-9691-7
M3 - Article
SN - 0022-2631
VL - 247
SP - 1019
EP - 1030
JO - Journal of membrane biology
JF - Journal of membrane biology
IS - 9-10
ER -