Non-coding RNAs articles within Nature

Featured

  • Letter |

    Long intergenic non-coding RNAs (lincRNAs) have been implicated in both gene silencing and activation, and could be a means for long-range control of gene expression. Here a lincRNA termed HOTTIP is identified at the 5′ tip of the HOXA locus that coordinates the activation of multiple 5′ HOXA genes. Chromosomal looping brings HOTTIP into the proximity of its target genes, where it seems to be required to facilitate histone H3 lysine 4 trimethylation and gene transcription.

    • Kevin C. Wang
    • , Yul W. Yang
    •  & Howard Y. Chang

  • Letter |

    Staufen 1 (STAU1) protein binds regions of dsRNA in the 3′ UTR of mRNAs and promotes their degradation, a process known as SMD (Staufen-mediated mRNA decay). Although a specific stem-loop binding site had been defined for one SMD target, it was unclear how STAU1 was directed to other SMD targets that lack this structure. This paper reports that pairing of Alu element sequences in long non-coding RNAs (lncRNAs) and in the 3′ UTR of the SMD target generates a dsRNA structure that STAU1 recognizes. This result highlights a new function for lncRNAs.

    • Chenguang Gong
    •  & Lynne E. Maquat

  • Letter |

    Piwi-associated RNAs (piRNAs) are small RNAs with several functions in the germline, such as repressing transposable elements and helping to maintain germline stem cells. Now, a function for piRNAs has been discovered outside the germline, in the fruitfly embryo. Specifically, piRNAs are required for the decay of the messenger RNA encoding the posterior morphogen Nanos. When piRNA-induced regulation is impaired, this mRNA is stabilized and developmental defects ensue.

    • Christel Rouget
    • , Catherine Papin
    •  & Martine Simonelig

  • Letter |

    A diploid organism has two copies of each gene, one inherited from each parent. The expression levels of the two alleles can be biased by dominant/recessive relationships. In Brassica, self-incompatibility in pollen is determined by dominance relationships between the two alleles of the gene SP11; the recessive allele is methylated and hence silenced. Here it is shown that such methylation is controlled by a small non-coding RNA encoded in the flanking region of the dominant allele.

    • Yoshiaki Tarutani
    • , Hiroshi Shiba
    •  & Seiji Takayama

  • Article |

    MicroRNAs are known to affect the levels of both messenger RNA (mRNA) and protein. But as protein production is dependent on the presence of mRNA, it was not clear what the relative contributions of microRNA-mediated mRNA cleavage and translational repression were. These authors have parsed out the two mechanisms, and unexpectedly find that microRNAs function primarily by affecting mRNA levels rather than their translation. This suggests a reassessment of many previous conclusions is necessary.

    • Huili Guo
    • , Nicholas T. Ingolia
    •  & David P. Bartel

  • Letter |

    One model for cancer development posits that the proliferating cells in a tumour can become 'addicted' to activating mutations in an oncogene. With the realization that certain microRNAs promote tumorigenesis, it has been proposed that tumours may also become dependent on such 'oncomiRs'. Here, evidence is provided that the gene encoding microRNA-21 is an oncogene, and that in its absence, tumours undergo apoptosis and regress. Thus tumours can indeed become addicted to oncomiRs.

    • Pedro P. Medina
    • , Mona Nolde
    •  & Frank J. Slack

  • Letter |

    The deacetylase SIRT1 has been suggested to function in normal brain physiology, but it is not known whether it participates in higher-order brain functions. These authors demonstrate a role for SIRT1 in synaptic plasticity and memory formation, with activation enhancing synaptic strength and memory formation. These effects were regulated through a post-transcriptional mechanism involving CREB activation and miR-134 production. This interplay represents another mechanism of plasticity regulation with behavioural consequences.

    • Jun Gao
    • , Wen-Yuan Wang
    •  & Li-Huei Tsai

  • Article |

    Extended cocaine taking triggers several structural and functional changes in the brain that may lead to compulsive drug seeking, but the mechanisms that regulate the process are unclear. Here, a microRNA — miR-212 — is identified that is upregulated in the striatum of rats with a history of extended access to cocaine. The authors suggest that miR-212 protects against the development of compulsive drug taking, and that it may act through the CREB protein, a known regulator of the rewarding effects of cocaine.

    • Jonathan A. Hollander
    • , Heh-In Im
    •  & Paul J. Kenny

  • News & Views |

    Cocaine abuse results in increased craving for the drug. But in the long run, cocaine intake induces the expression of a microRNA in the brain, and this seems to limit further drug intake.

    • Marina R. Picciotto

  • News & Views |

    Pseudogenes are considered to be defunct relatives of known genes. But there is some surprising news: pseudogenes are functional and could have a role in the control of cancer1. Two experts discuss the significance of these findings for understanding the regulation of gene expression and cancer biology.

    • Isidore Rigoutsos
    •  & Frank Furnari

  • News & Views |

    In plant roots, patterning of two types of water-conducting xylem tissue is determined by a signalling system that involves the reciprocal dance of a mobile transcription factor and mobile microRNAs.

    • Ben Scheres

  • Letter |

    The main reason why tumours are not controlled by the immune system is that they do not express potent tumour rejection antigens. Tumour vaccination aims to provoke a response to any antigens that are expressed. Here, a new approach is described: nonsense-mediated messenger RNA decay in tumour cells is inhibited, leading to the expression of new antigens and to significant inhibition of tumour growth in mice.

    • Fernando Pastor
    • , Despina Kolonias
    •  & Eli Gilboa

  • News & Views |

    Genomes don't just encode protein-coding RNAs. They also give rise to various groups of RNAs that can regulate gene expression. Short RNAs that form from enhancer sequences might be one such class of regulatory RNA.

    • Bing Ren

  • Journal Club |

    • Jean-Christophe Marine

  • Article |

    MicroRNAs, which regulate gene expression, are transcribed as longer sequences that are processed to produce the mature form. Two nuclease enzymes, Drosha and Dicer, are known to act sequentially to trim the microRNA to size. Here, however, a subset of microRNAs that includes miR-451, important for erythropoiesis, is found to be processed independently of Dicer. Rather, the Argonaute protein — part of the complex that aligns microRNA and messenger RNA — carries out the secondary cleavage.

    • Sihem Cheloufi
    • , Camila O. Dos Santos
    •  & Gregory J. Hannon

  • Letter |

    Large intervening non-coding RNAs (lincRNAs) are pervasively transcribed in the genome. Here it is shown that lincRNAs in the HOX genetic loci are dysregulated during breast cancer progression in human cells, and that expression levels of the lincRNA called HOTAIR can predict whether a tumour will metastasize. Moreover, enforced expression of HOTAIR can lead to altered patterns of binding of the PRC2 protein to the genome.

    • Rajnish A. Gupta
    • , Nilay Shah
    •  & Howard Y. Chang

  • Letter |

    During embryonic development, blood vessels remodel in response to blood flow. Here, a genetic pathway is described through which this mechanosensory stimulus is integrated with early developmental signals to remodel vessels of the aortic arch in zebrafish. It is found that the flow-induced transcription factor klf2a is required to induce the expression of an endothelial-specific microRNA, activating signalling through the growth factor Vegf.

    • Stefania Nicoli
    • , Clive Standley
    •  & Nathan D. Lawson

  • Letter |

    Female gametes in flowering plants develop from a meiotic division of a precursor cell followed by mitotic divisions of one of the resulting haploid cells to yield the gametophyte. Here, ARGONAUTE 9 (AGO9) — a protein involved in RNA interference — is identified as a factor required for specification of the gametophyte. AGO9 is found not in the cell destined to be the gametophyte, but in the neighbouring companion cells, suggesting that it functions in a non-cell-autonomous manner.

    • Vianey Olmedo-Monfil
    • , Noé Durán-Figueroa
    •  & Jean-Philippe Vielle-Calzada

  • Letter |

    Recent work suggests that microRNAs might have been important in the evolution of complexity in multicellular animals. Here it is shown that the most ancient known microRNA, miR–100, was initially active in neurosecretory cells around the mouth. Other highly conserved varieties were first present in specific tissues and organ systems. Thus, microRNA expression was initially restricted to an ancient set of ancient animal cell types and tissues.

    • Foteini Christodoulou
    • , Florian Raible
    •  & Detlev Arendt

  • Letter |

    Phenotypic robustness in the face of genetic and environmental perturbations — known as canalization — relies on buffering mechanisms. Hsp90 chaperone machinery has been proposed to be an evolutionarily conserved buffering mechanism of phenotypic variance. Here, an additional, perhaps alternative, mechanism whereby Hsp90 influences phenotypic variation is proposed; Hsp90 mutations can generate new variation by transposon-mediated mutagenesis.

    • Valeria Specchia
    • , Lucia Piacentini
    •  & Maria P. Bozzetti

  • Article |

    The differentiation of an embryonic stem cell (ESC) requires both suppression of the self-renewal process and activation of the specific differentiation pathway. The let-7 family of microRNAs (miRNAs) are now shown to suppress the self-renewal program in cells that are normally unable to silence this program, whereas introduction of ESC cell cycle regulating miRNAs blocks the action of let-7. Thus, the interplay between these two groups of miRNAs dictates cell fate.

    • Collin Melton
    • , Robert L. Judson
    •  & Robert Blelloch

Browse broader subjects

Browse narrower subjects

Browse Non-coding RNAs across other nature.com journals