Left-right patterning, situs inversus, and (artificial) nodal flow - oh my!(discussed Oct 12)

Cilia whips its head back 'n forth to flip symmetry.
[Modified from Babu and Roy, 2013; linked below]

One of the most important events in animal development is the establishment of body axes, a process crucial for defining overall body plan. In many cases, the genes required to establish these axes are understood. For example, in Drosophila, establishment of the dorsoventral axis primarily requires the aptly named Dorsal gene. However, although many genes have been linked to left-right patterning, the exact origin of this asymmetry remained elusive for many years.

Studies beginning in the 1970s gave the first hint towards the solution: human patients with Kartagener syndrome had situs inversus (whereby their internal left-right axis was flipped) together with respiratory disorders linked to ciliary dysfunction. Further studies solidified the connection between ciliary motion and left-right axis specification, but it was not until the cleverly-designed experiments of Nonaka et al. in 2002 that cilia-induced nodal flow was shown to be sufficient for left-right patterning in developing mouse embryos.

• Nonaka, et al. Determination of left-right patterning of the mouse embryo by artificial nodal flow. Nature 418, 96-99 (2002).

And here's a wonderful review on L-R patterning, for those interested.