The Generic Facet of Hox Protein Function.

Hox transcription factors are essential to promote morphological diversification of the animal body. A substantial number of studies have focused on how Hox proteins reach functional specificity, an issue that arises from the fact that these transcription factors control distinct developmental functions despite sharing similar molecular properties. In this review, we highlight that, besides specific functions, for which these transcription factors are renowned, Hox proteins also often have nonspecific functions.

The Hox proteins Ubx and AbdA collaborate with the transcription pausing factor M1BP to regulate gene transcription.

In metazoans, the pausing of RNA polymerase II at the promoter (paused Pol II) has emerged as a widespread and conserved mechanism in the regulation of gene transcription. While critical in recruiting Pol II to the promoter, the role transcription factors play in transitioning paused Pol II into productive Pol II is, however, little known. By studying how Hox transcription factors control transcription, we uncovered a molecular mechanism that increases productive transcription.

A preoperative metabolic marker of parkinsonian apathy following subthalamic nucleus stimulation.

Background: Subthalamic nucleus deep brain stimulation (STN-DBS) in Parkinson's disease (PD) has been associated with the development of postoperative apathy. Debate on the causes of postoperative apathy continues, and the dominant hypothesis is that stimulation or dopaminergic drug reductions are causal in its development. We hypothesized that a preoperative predisposition to apathy also could exist.

Stable, conditional, and muscle-fiber-specific expression of electroporated transgenes in chick limb muscle cells.

Limb muscle formation is spread out over time and, consequently, muscle cells are not easy to target at any particular stages. We aimed to design a technique to study gene function in the different steps of limb muscle formation. We have associated transposon-mediated gene transfer and a tetracycline-dependent activation method with forelimb somite electroporation.