Synthesis of an oligonucleotide-derivatized amphipol and its use to trap and immobilize membrane proteins
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Synthesis of an oligonucleotide-derivatized amphipol and its use to trap and immobilize membrane proteins. / Bon, Christel Le; Della Pia, Eduardo Antonio; Giusti, Fabrice; Lloret, Noemie Denise Carmen; Zoonens, Manuela; Martinez, Karen Laurence; Popot, Jean Luc.
I: Nucleic Acids Research, Bind 42, Nr. 10, e83, 2014.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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T1 - Synthesis of an oligonucleotide-derivatized amphipol and its use to trap and immobilize membrane proteins
AU - Bon, Christel Le
AU - Della Pia, Eduardo Antonio
AU - Giusti, Fabrice
AU - Lloret, Noemie Denise Carmen
AU - Zoonens, Manuela
AU - Martinez, Karen Laurence
AU - Popot, Jean Luc
N1 - OA
PY - 2014
Y1 - 2014
N2 - Amphipols (APols) are specially designed amphipathic polymers that stabilize membrane proteins (MPs) in aqueous solutions in the absence of detergent. A8-35, a polyacrylate-based APol, has been grafted with an oligodeoxynucleotide (ODN). The synthesis, purification and properties of the resulting 'OligAPol' have been investigated. Grafting was performed by reacting an ODN carrying an amine-terminated arm with the carboxylates of A8-35. The use of OligAPol for trapping MPs and immobilizing them onto solid supports was tested using bacteriorhodopsin (BR) and the transmembrane domain of Escherichia coli outer membrane protein A (tOmpA) as model proteins. BR and OligAPol form water-soluble complexes in which BR remains in its native conformation. Hybridization of the ODN arm with a complementary ODN was not hindered by the assembly of OligAPol into particles, nor by its association with BR. BR/OligAPol and tOmpA/OligAPol complexes could be immobilized onto either magnetic beads or gold nanoparticles grafted with the complementary ODN, as shown by spectroscopic measurements, fluorescence microscopy and the binding of anti-BR and anti-tOmpA antibodies. OligAPols provide a novel, highly versatile approach to tagging MPs, without modifying them chemically nor genetically, for specific, reversible and targetable immobilization, e.g. for nanoscale applications.
AB - Amphipols (APols) are specially designed amphipathic polymers that stabilize membrane proteins (MPs) in aqueous solutions in the absence of detergent. A8-35, a polyacrylate-based APol, has been grafted with an oligodeoxynucleotide (ODN). The synthesis, purification and properties of the resulting 'OligAPol' have been investigated. Grafting was performed by reacting an ODN carrying an amine-terminated arm with the carboxylates of A8-35. The use of OligAPol for trapping MPs and immobilizing them onto solid supports was tested using bacteriorhodopsin (BR) and the transmembrane domain of Escherichia coli outer membrane protein A (tOmpA) as model proteins. BR and OligAPol form water-soluble complexes in which BR remains in its native conformation. Hybridization of the ODN arm with a complementary ODN was not hindered by the assembly of OligAPol into particles, nor by its association with BR. BR/OligAPol and tOmpA/OligAPol complexes could be immobilized onto either magnetic beads or gold nanoparticles grafted with the complementary ODN, as shown by spectroscopic measurements, fluorescence microscopy and the binding of anti-BR and anti-tOmpA antibodies. OligAPols provide a novel, highly versatile approach to tagging MPs, without modifying them chemically nor genetically, for specific, reversible and targetable immobilization, e.g. for nanoscale applications.
U2 - 10.1093/nar/gku250
DO - 10.1093/nar/gku250
M3 - Journal article
C2 - 24744236
AN - SCOPUS:84903152418
VL - 42
JO - Nucleic Acids Research
JF - Nucleic Acids Research
SN - 0305-1048
IS - 10
M1 - e83
ER -
ID: 131611213