Various types of stress reset heritable small RNA responses through the function of the p38 MAPK pathway, the transcription factor SKN-1/Nrf2, and the MET-2/SETDB1 putative histone methyltransferase.

The condensates of activator Met4 are associated with 3D clustering of the MET regulon and its enhanced expression.

In Caenorhabditis elegans histone methylation (H3K9me3) controls the synthesis of heritable small RNAs in a gene-specific manner and thus enables 'flagging' of newly-acquired genes.

The depletion of a new class of putative histone methyltransferases, including MET-2, SET-6, SET-19, SET-20, SET-21, SET-32, and SET-33, induced synergistic lifespan extension in daf-2 animals to an average lifespan nearly three times that of wild-type animals.

A zebrafish model for a particular form of human deafness (DFNB63) changes our view of this disease by revealing a defect in the localization of Transmembrane channel-like proteins that are essential for mechanotransduction in sensory cells.

The structural relationship between TMC and TMEM16 proteins provides insight into the structure and functional mechanisms of the mechanotransduction channel complex in hair cells.

Other than its function in mechanotransduction, TMC1 is indispensable for action potential firing of auditory hair cells by mediating a leak conductance that alters tonotopically along the cochlea coil.

Complexes formed by calcium- and integrin-binding proteins 2 and 3 and transmembrane channel-like proteins 1 and 2 are essential for vertebrate hearing and balance and for fish lateral line function.

Structures of a mouse PCDH15 and LHFPL5 complex, two proteins involved in converting sound into electrical signals, illuminate how mechanical stimuli are delivered to the membrane of inner ear hair cells.

HGF-MET signaling phosphorylates- and PTPRK dephosphorylates ZNRF3 to regulate ZNRF3 internalization, functioning as a rheostat for Wnt signaling.