Gavity and Microtubules in Dorsoventral Polarization of The Xenopus Egg

In Xenopus laevis , the dorsoventral axis of the embryo is specified by a 30° relative rotation between the cortex and the cytoplasm of the fertilized egg, and a cortical array of parallel microtubules may be part of the rotation machinery (7). The parallel microtubules are aligned with the sperm entry point in most of the eggs as expected, since the dorsoventral axis is usually defined by the sperm entry point. We show that gravity can play two roles in the formation of the dorsoventral axis. First, a simple 90° tilt off-axis before the start of the rotation overcomes the influence of the sperm and determines the orientation of the parallel microtubules. Second, a 90° tilt off-axis can specify the dorsoventral axis even in the absence of the parallel microtubules. Therefore, gravity can affect dorsoventral polarity by orienting the parallel microtubules or by moving cytoplasm directly without microtubules.