Pore-Forming
Monopeptides as Exceptionally Active
Anion Channels
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Abstract
We describe here
a unique family of pore-forming anion-transporting
peptides possessing a single-amino-acid-derived peptidic backbone
that is the shortest among natural and synthetic pore-forming peptides.
These monopeptides with built-in H-bonding capacity self-assemble
into an H-bonded 1D columnar structure, presenting three types of
exteriorly arranged hydrophobic side chains that closely mimic the
overall topology of an α-helix. Dynamic interactions among these
side chains and membrane lipids proceed in a way likely similar to
how α-helix bundle is formed. This subsequently enables oligomerization
of these rod-like structures to form ring-shaped ensembles of varying
sizes with a pore size of smaller than 1.0 nm in diameter but sufficiently
large for transporting anions across the membrane. The intrinsic high
modularity in the backbone further allows rapid tuning in side chains
for combinatorial optimization of channel’s ion-transport activity,
culminating in the discovery of an exceptionally active anion-transporting
monopeptide <b>6L10</b> with an EC<sub>50</sub> of 0.10 μM
for nitrate anions