ARHGAP11B is a human-specific gene that amplifies basal progenitors, controls neural progenitor proliferation, and contributes to neocortex folding. It is capable of causing neocortex folding in mice. This likely reflects a role for ARHGAP11B in development and evolutionary expansion of the human neocortex, a conclusion consistent with the finding that the gene duplication that created ARHGAP11B occurred on the human lineage after the divergence from the chimpanzee lineage but before the divergence from Neanderthals.[3]
ARHGAP11B encodes 267 amino acids. A truncated copy of ARHGAP11A, which is found throughout the animal kingdom and encodes a Rho GTPase-activating-protein (RhoGAP domain), ARHGAP11B comprises most of the GAP domain (until lysine-220), followed by a novel C-terminal sequence that lacks the 756 C-terminal amino acids of ARHGAP11A.
In contrast to full-length ARHGAP11A and ARHGAP11A 1-250, ARHGAP11B, like ARHGAP11A1-220, did not exhibit RhoGAP activity in a RhoA/Rho-kinase–based cell transfection assay. This indicates that the C-terminal 47 amino-acids of ARHGAP11B (after lysine-220) constitute not only a unique sequence, resulting from a frameshifting deletion, but also are functionally distinct from their counterpart in ARHGAP11A. In this assay, co-expression of ARHGAP11B along with ARHGAP11A did not inhibit the latter's RhoGAP activity.[3]