The K1 channel is a tetramer with f

The K1 channel is a tetramer with fourfold
symmetry about a central pore (Fig. 3,
A and B). Like several other membrane
proteins, it has two layers of aromatic amino
acids positioned to extend into the lipid
bilayer, presumably near the membrane-water
interfaces (Fig. 3C) (10). Each subunit
has two transmembrane a-helices connected
by the roughly 30 amino acid pore region,
which consists of the turret, pore helix,
and selectivity filter (Fig. 3, A and B).
A subunit is inserted into the tetramer such
that one transmembrane helix (inner helix)
faces the central pore while the other (outer
helix) faces the lipid membrane. The inner
helices are tilted with respect to the membrane
normal by about 25° and are slightly
kinked, so that the subunits open like the
petals of a flower facing the outside of the
cell. The open petals house the structure
formed by the pore region near the extracellular
surface of the membrane. This region
contains the K1 channel signature
sequence, which forms the selectivity filter
(4). The essential features of subunit packing
can be appreciated by viewing the relation
between the four inner helices and the
four pore helices (Fig. 3D). The four inner
helices pack against each other as a bundle
near the intracellular aspect of the membrane,
giving the appearance of an inverted
teepee. The pore helices are slotted in between
the poles of the teepee and are directed,
with an amino-to-carboxyl sense,
toward a point near the center of the channel
(Fig. 3, A, B, and D). This pore helix
arrangement provides many of the intersubunit
contacts that hold the tetramer together
and, as discussed below, is also critical in
the operation of the ion conduction pore.