Tetrahymena thermophila is a unicellular organism that strikingly has two nuclei. While the somatic nucleus is transcriptionally active, the germline nucleus is mostly silent and serves as the genetic “vault” of the organism. By taking advantage of its two nuclei, Tetrahymena have evolved the ultimate method of combating potentially dangerous TEs. They eliminate them from their active genome and “store” them in the germline nucleus, where they are kept away from the transcriptional machinery. But to identify dangerous TEs, Tetrahymena first need to transcribe them from the germline nucleus.
A long-standing question was how Tetrayhmena are able to access the instructions packed in an otherwise silent nucleus. Miao Tian from the group of Josef Loidl and their collaborator from the Institute of Human Genetics in Montpellier (France) now found the “key” to the genetic vault of Tetrahymena, that comes in the form of three mediator complex (Med) associated proteins.
Mediator is a protein complex involved in the communication between two major players of transcription: RNA polymerase and gene-specific transcription factors. During meiosis, two proteins (EMIT1 and EMIT2) tether Med to the silent nucleus, activating the transcriptional players. By doing that, they unlock the genetic “vault” and with the help of another protein (RIB1), position the transcriptional machinery towards the TE-rich regions stored in the germline nucleus.
Transposons and other non-coding DNA are found in the genome of many plants, animals, and humans. They often make up a large part of the DNA. The findings are an example of how organisms evolve ways to protect genome integrity, and illustrate the importance of model organisms for the understanding of fundamental biological processes. Since non-coding RNA production occurs in a transcriptionally prohibitive environment, the finding of specific Med-associated proteins also opens a new avenue of research on transcription regulation.
Original Publication in Current Biology:
Miao Tian, Kazufumi Mochizuki, Josef Loidl: Non-coding RNA Transcription in Tetrahymena Meiotic Nuclei Requires Dedicated Mediator Complex-Associated Proteins.