INVERSION IN VOLVOX (CHLOROPHYCEAE) 1

The asexual embryos of Volvox turn themselves inside out (invert) during development. Data presented indicate that inversion of the embryos is the result of several simple cellular shape changes, coordinated in space and time. Using whole embryos, cell groups and individual embryonic cells isolated by watchmaker's forceps and pressure on the coverslip, it was shown that the phialopore (opening) enlargement and concurrent stretching of the border cells is due to a constriction formed at the equator. However, if the posterior hemisphere is removed, this constriction no longer effects the expansion of the phialopore (which is in the anterior hemisphere) because the equatorial region is no longer anchored and has no base to support the outwardly directed force against the phialopore cells. If the posterior hemisphere is isolated several hours before inversion, the opening resulting from the incision acts as a “phialopore” and the direction of inversion is reversed. Individual cells and cells in groups undergo the same shape changes as corresponding cells in an intact embryo during inversion. This suggests that these cellular deformations are autonomous and inversion is a result of them.