TY - JOUR T1 - RNA-Dependent Synthesis of Mammalian mRNA: Identification of Chimeric Intermediate and Putative End Product JF - bioRxiv DO - 10.1101/071266 SP - 071266 AU - Sophia Rits AU - Bjorn R. Olsen AU - Vladimir Volloch Y1 - 2016/01/01 UR - http://biorxiv.org/content/early/2016/08/24/071266.abstract N2 - Our initial understanding of the flow of protein-encoding genetic information, DNA to RNA to protein, a process defined as the “central dogma of molecular biology”, was eventually amended to account for the information back-flow from RNA to DNA (reverse transcription), and for its “side-flow” from RNA to RNA (RNA-dependent RNA synthesis, RdRs). These processes, both potentially leading to protein production, were described only in viral systems, and although putative RNA-dependent RNA polymerase (RdRp) was shown to be present, and RdRs to occur, in most, if not all, mammalian cells, its function was presumed to be restricted to regulatory. Here we report the occurrence of protein-encoding RNA to RNA information transfer in mammalian cells. We describe below the detection, by next generation sequencing (NGS), of a chimeric doublestranded/pinhead intermediate containing both sense and antisense globin RNA strands covalently joined in a predicted and uniquely defined manner, whose cleavage at the pinhead would result in the generation of an endproduct containing the intact coding region of the original mRNA. We also describe the identification of the putative end product of RNA-dependent globin mRNA amplification. It is heavily modified, uniformly truncated at both untranslated regions (UTRs), terminates with the OH group at the 5’ end, consistent with a cleavagegenerated 5’ terminus, and its massive cellular amount is unprecedented for a conventional mRNA transcription product. It also translates in a cell-free system into polypeptides indistinguishable from the translation product of conventional globin mRNA. The physiological significance of the mammalian mRNA amplification, which might operate during terminal differentiation and in the production of highly abundant rapidly generated proteins such as some collagens or other components of extracellular matrix, with every genome-originated mRNA molecule acting as a potential template, as well as possible implications, including physiologically occurring intracellular PCR process, iPCR, are discussed in the paper. ER -