Regulatory RNAs

Several types of RNA can downregulate gene expression by being complementary to a part of an mRNA or a gene's DNA. Micro RNAs(miRNA; 21-22 nt) are found in eukaryotes and act through RNA interference (RNAi), where an effector complex of miRNA and enzymes can break down mRNA which the miRNA is complementary to, block the mRNA from being translated, or accelerate its degradation. While small interfering RNAs (siRNA; 20-25 nt) are often produced by breakdown of viral RNA, there are also endogenous sources of siRNAs.siRNAs act through RNA interference in a fashion similar to miRNAs. Some miRNAs and siRNAs can cause genes they target to be methylated, thereby decreasing or increasing transcription of those genes. Animals have Piwi-interacting RNAs (piRNA; 29-30 nt) which are active in germline cells and are thought to be a defense against transposons and play a role in gametogenesis.Many prokaryotes have CRISPR RNAs, a regulatory system similar to RNA interference.Antisense RNAs are widespread; most downregulate a gene, but a few are activators of transcription.One way antisense RNA can act is by binding to an mRNA, forming double-stranded RNA that is enzymatically degraded.There are many long noncoding RNAs that regulate genes in eukaryotes,one such RNA is Xist which coats one X chromosome in female mammals and inactivates it.An mRNA may contain regulatory elements itself, such as riboswitches, in the 5' untranslated region or 3' untranslated region; these cis-regulatory elements regulate the activity of that mRNA.The untranslated regions can also contain elements that regulate other genes.