A stable tetraporphyrin metallacycle with Re(I) corners (1) is capable of forming nanopores in a liposomial membrane, provided that the porphyrin units are properly functionalized with peripheral carboxylic acid residues that, by establishing an hydrogen bond network, allow the formation of dimers that span the depth of the membrane
Large multiprotein nanopores remain difficult to reconstitute in vitro, such as, for instance, the n...
Membranes that can separate molecules of similar size based on chemical features could transform che...
Biological ion channels and ion pumps with sub-nanometer sizes modulate ion transport in response to...
A stable tetraporphyrin metallacycle with Re(I) corners (<b>1</b>) is capable of forming nanopores ...
Oligocholate macrocycles self-assemble into transmembrane nanopores by the associative interactions ...
Cell membranes perform important biological roles including compartmentalization, signaling, and tra...
Nanopore analysis is a very promising technique for many applications, such as the study of intrinsi...
Reproducing the structure and function of biological membrane channels, synthetic nanopores have bee...
Oligocholate macrocycles self-assemble into transmembrane nanopores by the associative interactions ...
Nanoporous membranes are made based on photoreactive hydrogen-bridged smectic liquid crystal dimers....
Large multiprotein nanopores remain difficult to reconstitute in vitro, such as, for instance, the n...
ABSTRACT: DNA nanotechnology excels at rationally designing bottom-up structures that can functional...
A new efficient strategy of a zinc porphyrin based yoctowell cavity as a receptor for the formation ...
Nanopore-based sensors for nucleic acid sequencing and single-molecule detection typically employ po...
A binding pocket consisting of two zinc porphyrins self assembled by Watson-Crick base pairing is pr...
Large multiprotein nanopores remain difficult to reconstitute in vitro, such as, for instance, the n...
Membranes that can separate molecules of similar size based on chemical features could transform che...
Biological ion channels and ion pumps with sub-nanometer sizes modulate ion transport in response to...
A stable tetraporphyrin metallacycle with Re(I) corners (<b>1</b>) is capable of forming nanopores ...
Oligocholate macrocycles self-assemble into transmembrane nanopores by the associative interactions ...
Cell membranes perform important biological roles including compartmentalization, signaling, and tra...
Nanopore analysis is a very promising technique for many applications, such as the study of intrinsi...
Reproducing the structure and function of biological membrane channels, synthetic nanopores have bee...
Oligocholate macrocycles self-assemble into transmembrane nanopores by the associative interactions ...
Nanoporous membranes are made based on photoreactive hydrogen-bridged smectic liquid crystal dimers....
Large multiprotein nanopores remain difficult to reconstitute in vitro, such as, for instance, the n...
ABSTRACT: DNA nanotechnology excels at rationally designing bottom-up structures that can functional...
A new efficient strategy of a zinc porphyrin based yoctowell cavity as a receptor for the formation ...
Nanopore-based sensors for nucleic acid sequencing and single-molecule detection typically employ po...
A binding pocket consisting of two zinc porphyrins self assembled by Watson-Crick base pairing is pr...
Large multiprotein nanopores remain difficult to reconstitute in vitro, such as, for instance, the n...
Membranes that can separate molecules of similar size based on chemical features could transform che...
Biological ion channels and ion pumps with sub-nanometer sizes modulate ion transport in response to...
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