[Method of Inducible Knockdown of Essential Genes in OSC Cell Culture of Drosophila melanogaster].

An RNA interference-based method was proposed to achieve an inducible knockdown of genes essential for cell viability. In the method, a genetic cassette in which a copper ion-dependent inducible metallothionein promoter controls expression of a siRNA precursor is inserted into a genomic pre-integrated transgene by CRIPSR/Cas9 technology. The endogenous siRNA source allows the gene knockdown in cell cultures that are refractory to conventional transfection with exogenous siRNA.

The chromosome-scale genome assembly for the West Nile vector Culex quinquefasciatus uncovers patterns of genome evolution in mosquitoes.

Background: Understanding genome organization and evolution is important for species involved in transmission of human diseases, such as mosquitoes. Anophelinae and Culicinae subfamilies of mosquitoes show striking differences in genome sizes, sex chromosome arrangements, behavior, and ability to transmit pathogens. However, the genomic basis of these differences is not fully understood.

Fraternity of old-timers: How ubiquitin regulates miRNA functions.

miRNA-mediated gene repression and ubiquitin-dependent processes are among the oldest and most versatile mechanisms that control multiple molecular pathways, rather than just protein turnover. These systems were discovered decades ago and have become among the most studied. All systems within cells are interconnected, and these two are no exception: the plethora of studies have demonstrated that the activity of the miRNAs system depends on players of the ubiquitin-centered universe of processes, and vice versa.

Bacterial Argonaute nucleases reveal different modes of DNA targeting in vitro and in vivo.

Prokaryotic Argonaute proteins (pAgos) are homologs of eukaryotic Argonautes (eAgos) and are also thought to play a role in cell defense against invaders. However, pAgos are much more diverse than eAgos and little is known about their functional activities and target specificities in vivo. Here, we describe five pAgos from mesophilic bacteria that act as programmable DNA endonucleases and analyze their ability to target chromosomal and invader DNA.