Different combinations of the transcription factors Pou5f3, Nanog and Sox32 form complexes to drive dorsoventral mesendoderm patterning in zebrafish.

Crucial functions of Toll signalling during dorsoventral axis formation might have evolved convergently in flies and crickets.

In the spider Parasteatoda tepidariorum the transcription factor Ets4 is needed for cumulus integrity, dorsoventral patterning and for the activation of hunchback and twist expression.

During the evolution of insect lineages, a signaling pathway dedicated to pathogen defense was co-opted for a new role in embryonic patterning.

Two intrinsic factors converge to govern the differentiation and integration of distinct characteristics of the hippocampus in mice.

Setpoints that determine the integrative properties of neurons in the medial entorhinal cortex are established at a population level and differ between animals.

The existence of traveling waves in the medial entorhinal cortex, like those observed in the hippocampus, supports the hypothesis that traveling waves coordinate the activity of anatomically distributed circuits.

The medial entorhinal cortex is important for spatial memory formation and matures from dorsal, where smaller spatial-scales are represented, to ventral, where larger spatial-scales are represented.

A new method is described to identify sharp-wave ripples from the rodent hippocampus with deep learning techniques, which may help to identify and characterize previously undetected physiological events.

While movement of Fgf-signaling to the limb mesenchyme accompanied a shift in function, the ultimate outcome remains a convergent tetrapod limb phenotype.