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Regulation of alternative splicing by RNA editing.   总被引:34,自引:0,他引:34  
S M Rueter  T R Dawson  R B Emeson 《Nature》1999,399(6731):75-80
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4.
S Augustin  M W Müller  R J Schweyen 《Nature》1990,343(6256):383-386
Group II introns, which are classed together on the basis of a conserved secondary structure, are found in organellar genes of lower eukaryotes and plants. Like introns in nuclear pre-messenger RNA, they are excised by a two-step splicing reaction to generate branched circular RNAs, the so-called lariats. A remarkable feature of group II introns is their self-splicing activity in vitro. In the absence of a nucleotide cofactor, the intron RNAs catalyse two successive transesterification reactions which lead to autocatalytic excision of the lariat IVS from pre-mRNA and concomitantly to exon ligation. By virtue of its ability to specifically bind the 5' exon, the intron can also catalyse such reactions on exogenous RNA substrates. This sequence-specific attachment could enable group II introns to integrate into unrelated RNAs by reverse splicing, in a process similar to that described for the self-splicing Tetrahymena group I intron. Here we report that group II lariat IVS can indeed reintegrate itself into an RNA composed of the ligated exons in vitro. This occurs by a process of self-splicing that completely reverses both transesterification steps of the forward reaction: it involves a transition of the 2'-5' phosphodiester bond of the lariat RNA into the 3'-5' bond of the reconstituted 5' splice junction.  相似文献   

5.
RNA editing in plant mitochondria   总被引:71,自引:0,他引:71  
P S Covello  M W Gray 《Nature》1989,341(6243):662-666
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6.
RNA editing by cytidine insertion in mitochondria of Physarum polycephalum   总被引:13,自引:0,他引:13  
R Mahendran  M R Spottswood  D L Miller 《Nature》1991,349(6308):434-438
A corollary of the central dogma of molecular biology is that genetic information passes from DNA to RNA by the continuous synthesis of RNA on a DNA template. The demonstration of RNA editing (the specific insertion, deletion or substitution of residues in RNA to create an RNA with a sequence different from its own template) raised the possibility that in some cases not all of the genetic information for a trait residues in the DNA template. Two different types of RNA editing have been identified in mitochondria: insertional editing represented by the extensive insertion (and occasional deletion) of uridine residues in mitochondrial RNAs of the kinetoplastid protozoa and the substitutional editing represented by the cytidine to uridine substitutions in some plant mitochondria. These editing types have not been shown to be present in the same organism and may have very different mechanisms. RNA editing of both types has been observed in nonmitochondrial systems but is not as extensive and may involve still different mechanisms. Here we report the discovery of extensive insertional RNA editing in mitochondria from an organism other than a kinetoplastid protozoan. The mitochondrial RNA apparently encoding the alpha subunit of ATP synthetase in the acellular slime mould, Physarum polycephalum, is edited at 54 sites by cytidine insertion.  相似文献   

7.
Non-coding RNAs (ncRNAs) are involved in an increasingly recognized number of cellular events. Some ncRNAs are processed by DICER and DROSHA RNases to give rise to small double-stranded RNAs involved in RNA interference (RNAi). The DNA-damage response (DDR) is a signalling pathway that originates from a DNA lesion and arrests cell proliferation3. So far, DICER and DROSHA RNA products have not been reported to control DDR activation. Here we show, in human, mouse and zebrafish, that DICER and DROSHA, but not downstream elements of the RNAi pathway, are necessary to activate the DDR upon exogenous DNA damage and oncogene-induced genotoxic stress, as studied by DDR foci formation and by checkpoint assays. DDR foci are sensitive to RNase A treatment, and DICER- and DROSHA-dependent RNA products are required to restore DDR foci in RNase-A-treated cells. Through RNA deep sequencing and the study of DDR activation at a single inducible DNA double-strand break, we demonstrate that DDR foci formation requires site-specific DICER- and DROSHA-dependent small RNAs, named DDRNAs, which act in a MRE11–RAD50–NBS1-complex-dependent manner (MRE11 also known as MRE11A; NBS1 also known as NBN). DDRNAs, either chemically synthesized or in vitro generated by DICER cleavage, are sufficient to restore the DDR in RNase-A-treated cells, also in the absence of other cellular RNAs. Our results describe an unanticipated direct role of a novel class of ncRNAs in the control of DDR activation at sites of DNA damage.  相似文献   

8.
W A Miller  T W Dreher  T C Hall 《Nature》1985,313(5997):68-70
The genomes of many (+)-stranded RNA viruses, including plant viruses and alphaviruses, consist of polycistronic RNAs whose internal genes are expressed via subgenomic messenger RNAs. The mechanism(s) by which these subgenomic mRNAs arise are poorly understood. Based on indirect evidence, three models have been proposed: (1) internal initiation by the replicase on the (-)-strand of genomic RNA, (2) premature termination during (-)-strand synthesis, followed by independent replication of the subgenomic RNA and (3) processing by nuclease cleavage of genome-length RNA. Using an RNA-dependent RNA polymerase (replicase) preparation from barley leaves infected with brome mosaic virus (BMV) to synthesize the viral subgenomic RNA in vitro, we now provide evidence that subgenomic RNA arises by internal initiation on the (-)-strand of genomic RNA. We believe that this also represents the first in vitro demonstration of a replicase from a eukaryotic (+)-stranded RNA virus capable of initiating synthesis of (+)-sense RNA.  相似文献   

9.
A discontinuous hammerhead ribozyme embedded in a mammalian messenger RNA   总被引:1,自引:0,他引:1  
Martick M  Horan LH  Noller HF  Scott WG 《Nature》2008,454(7206):899-902
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10.
Epigenetic silencing of tumour suppressor gene p15 by its antisense RNA   总被引:3,自引:0,他引:3  
Yu W  Gius D  Onyango P  Muldoon-Jacobs K  Karp J  Feinberg AP  Cui H 《Nature》2008,451(7175):202-206
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11.
Molecular determinants and guided evolution of species-specific RNA editing   总被引:1,自引:0,他引:1  
Reenan RA 《Nature》2005,434(7031):409-413
Most RNA editing systems are mechanistically diverse, informationally restorative, and scattershot in eukaryotic lineages. In contrast, genetic recoding by adenosine-to-inosine RNA editing seems common in animals; usually, altering highly conserved or invariant coding positions in proteins. Here I report striking variation between species in the recoding of synaptotagmin I (sytI). Fruitflies, mosquitoes and butterflies possess shared and species-specific sytI editing sites, all within a single exon. Honeybees, beetles and roaches do not edit sytI. The editing machinery is usually directed to modify particular adenosines by information stored in intron-mediated RNA structures. Combining comparative genomics of 34 species with mutational analysis reveals that complex, multi-domain, pre-mRNA structures solely determine species-appropriate RNA editing. One of these is a previously unreported long-range pseudoknot. I show that small changes to intronic sequences, far removed from an editing site, can transfer the species specificity of editing between RNA substrates. Taken together, these data support a phylogeny of sytI gene editing spanning more than 250 million years of hexapod evolution. The results also provide models for the genesis of RNA editing sites through the stepwise addition of structural domains, or by short walks through sequence space from ancestral structures.  相似文献   

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Park JE  Heo I  Tian Y  Simanshu DK  Chang H  Jee D  Patel DJ  Kim VN 《Nature》2011,475(7355):201-205
A hallmark of RNA silencing is a class of approximately 22-nucleotide RNAs that are processed from double-stranded RNA precursors by Dicer. Accurate processing by Dicer is crucial for the functionality of microRNAs (miRNAs). The current model posits that Dicer selects cleavage sites by measuring a set distance from the 3' overhang of the double-stranded RNA terminus. Here we report that human Dicer anchors not only the 3' end but also the 5' end, with the cleavage site determined mainly by the distance (~22 nucleotides) from the 5' end (5' counting rule). This cleavage requires a 5'-terminal phosphate group. Further, we identify a novel basic motif (5' pocket) in human Dicer that recognizes the 5'-phosphorylated end. The 5' counting rule and the 5' anchoring residues are conserved in Drosophila Dicer-1, but not in Giardia Dicer. Mutations in the 5' pocket reduce processing efficiency and alter cleavage sites in vitro. Consistently, miRNA biogenesis is perturbed in vivo when Dicer-null embryonic stem cells are replenished with the 5'-pocket mutant. Thus, 5'-end recognition by Dicer is important for precise and effective biogenesis of miRNAs. Insights from this study should also afford practical benefits to the design of small hairpin RNAs.  相似文献   

14.
RNA interference in adult mice   总被引:203,自引:0,他引:203  
McCaffrey AP  Meuse L  Pham TT  Conklin DS  Hannon GJ  Kay MA 《Nature》2002,418(6893):38-39
RNA interference is an evolutionarily conserved surveillance mechanism that responds to double-stranded RNA by sequence-specific silencing of homologous genes. Here we show that transgene expression can be suppressed in adult mice by synthetic small interfering RNAs and by small-hairpin RNAs transcribed in vivo from DNA templates. We also show the therapeutic potential of this technique by demonstrating effective targeting of a sequence from hepatitis C virus by RNA interference in vivo.  相似文献   

15.
RNA editing is a process that results in the production of a messenger RNA with nucleotide sequences that differ from those of the template DNA, and provides another mechanism for modulating gene expression. The phenomenon was initially described in the mitochondria of protozoa. Here we report that RNA editing is also required for the correct expression of plant mitochondrial genes. It has previously been proposed that in plant mitochondria there is a departure from the universal genetic code, with CGG specifying tryptophan instead of arginine. This was because CGG codons are often found in plant mitochondrial genes at positions corresponding to those encoding conserved tryptophans in other organisms. We have now found, however, wheat mitochondrial gene sequences containing C residues that are edited to U residues in the corresponding mRNA sequences. In this way, CGG codons can be changed to UGG codons in the mRNA so that tryptophan may be encoded according to the universal genetic code. Furthermore, for each codon modification resulting from a C----U conversion that we studied, we found a corresponding change in the amino acid that was encoded. RNA editing in wheat mitochondria can thus maintain genetic information at the RNA level and as a result contribute to the conservation of mitochondrial protein sequences among plants.  相似文献   

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近年来,人们对植物中RNA沉默机制的的认识日渐清晰,小RNAs在其中发挥重要作用.文章综述了植物中RNA沉默的机制、RNA沉默的主要途径及其在防御外源DNA序列入侵过程中的主要功能.并简要介绍了由DNA病毒编码的基因沉默抑制子在对抗宿主沉默反应的作用.文章最后阐述了对RNA沉默进行深入研究的必要性,对需要研究的问题进行了分析,为抗病毒作物育种提供了有力依据.  相似文献   

18.
Role for a bidentate ribonuclease in the initiation step of RNA interference   总被引:344,自引:0,他引:344  
Bernstein E  Caudy AA  Hammond SM  Hannon GJ 《Nature》2001,409(6818):363-366
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19.
The gene for the U6 small nuclear RNA in fission yeast has an intron   总被引:34,自引:0,他引:34  
T Tani  Y Ohshima 《Nature》1989,337(6202):87-90
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20.
为全面理解载脂蛋白B mRNA(ApoB mRNA)编辑酶催化多肽-1(APOBEC1)的作用机制,介绍了APOBEC1和ApoB mRNA的蛋白及核酸序列,总结并绘制了APOBEC1与不同的辅助蛋白的结合模型,阐述了APOBEC1催化ApoB mRNA第6 666位的胞嘧啶(C_(6666))脱氨基化分子机制.列举了啮齿动物APOBEC1抑制多种逆转录病毒的研究报道,介绍了兔源APOBEC1结合人类免疫缺陷病毒1(HIV-1)的病毒粒子并编辑病毒基因组的机理.同时介绍了APOBEC1通过编辑胞嘧啶或与AU富集元件(ARE)结合来调控癌症等疾病相关的细胞因子表达.  相似文献   

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