Site-specific pseudouridylations of rRNAs and snRNAs are directed by small guide RNAs that usually pos-sess conserved H and ACA motifs and the consensus secon-dary structure consisting of hairpin-hinge-hairpin-tail. I...Site-specific pseudouridylations of rRNAs and snRNAs are directed by small guide RNAs that usually pos-sess conserved H and ACA motifs and the consensus secon-dary structure consisting of hairpin-hinge-hairpin-tail. In this study, through screening cDNA library, three novel box H/ACA snoRNAs, termed SP12, SP16 and SP20, have been identified from fisson yeast Schizosacchromyces pombe. Each of the small RNAs possesses an ACA-like motif and exhibits secondary structures containing two or three large hairpin- like domains. Although the box H is noncanonical, SP20 can be potentially folded into a typical box H/ACA snoRNA-like structure and is predicted to guide two pseudouridylations, U1208 and U1053, on 18S rRNA. In contrast, SP12 and SP16 display different structures from SP20 and have no antisense elements to rRNAs or snRNAs. Obviously, they are new members of orphan guide snoRNAs whose functions remain elusive. The genes encoded for SP12 and SP16 are both lo-cated in long intergenic regions between protein-coding genes. A post-transcriptional processing for SP16 precursor was demonstrated. Interestingly, SP20 gene is nested inside a very hypothetical ORF, but transcribed in a reverse sense. Northern and RT-PCR analyses could not detect the tran-script from the hypothetical ORF, and therefore exclude the expression of the spurious gene. This is the first example that a genetic locus predicted for protein-coding gene actually encodes a small non-messenger RNA in S. pombe.展开更多
From a specialized cDNA library, four novel box H/ACA snoRNAs, named GLsR22, GLsR23, GLsR24 and GLsR25, were identified from the primitive eukaryote, Giardia lamblia. Bioinformat- ics analyses indicated that all of th...From a specialized cDNA library, four novel box H/ACA snoRNAs, named GLsR22, GLsR23, GLsR24 and GLsR25, were identified from the primitive eukaryote, Giardia lamblia. Bioinformat- ics analyses indicated that all of them can be poten- tially folded into double hairpins, the typical secon- dary structures of box H/ACA snoRNAs. GLsR24 and GLsR25 are predicted to guide the site-specific pseudouridylation at U1753 and U2396 on 23S rRNA, respectively, while GLsR22 and GLsR23 belong to the family of “orphan” snoRNAs. All of the four novel snoRNAs are encoded by single copy genes and located in small intergenic regions. Interestingly, compared with the counterparts previously reported in Archaea and other unicellular protozoan, the box H/ACA snoRNAs identified from G. lamblia have unique structural features, implying that snoRNAs evolved from prokaryotes to eukaryotes in different ways.展开更多
Pseudouridines(Ψs) are the most abundant and highly conserved modified nucleotides found in various stable RNAs of all organisms. Most Ψs are clustered in regions that are functionally important for pre-m RNA splici...Pseudouridines(Ψs) are the most abundant and highly conserved modified nucleotides found in various stable RNAs of all organisms. Most Ψs are clustered in regions that are functionally important for pre-m RNA splicing. Ψ has an extra hydrogen bond donor that endows RNA molecules with distinct properties that contribute significantly to RNA-mediated cellular processes. Experimental data indicate that spliceosomal sn RNA pseudouridylation can be catalyzed by both RNA-dependent and RNA-independent mechanisms. Recent work has also demonstrated that pseudouridylation can be induced at novel positions under stress conditions, suggesting a regulatory role for Ψ.展开更多
基金supported by the National Natural Science Foundation of China(Grant Nos.30230200 and 30170216)by the Fund for Distinguished Young Scholars from the Ministry of Education of China.
文摘Site-specific pseudouridylations of rRNAs and snRNAs are directed by small guide RNAs that usually pos-sess conserved H and ACA motifs and the consensus secon-dary structure consisting of hairpin-hinge-hairpin-tail. In this study, through screening cDNA library, three novel box H/ACA snoRNAs, termed SP12, SP16 and SP20, have been identified from fisson yeast Schizosacchromyces pombe. Each of the small RNAs possesses an ACA-like motif and exhibits secondary structures containing two or three large hairpin- like domains. Although the box H is noncanonical, SP20 can be potentially folded into a typical box H/ACA snoRNA-like structure and is predicted to guide two pseudouridylations, U1208 and U1053, on 18S rRNA. In contrast, SP12 and SP16 display different structures from SP20 and have no antisense elements to rRNAs or snRNAs. Obviously, they are new members of orphan guide snoRNAs whose functions remain elusive. The genes encoded for SP12 and SP16 are both lo-cated in long intergenic regions between protein-coding genes. A post-transcriptional processing for SP16 precursor was demonstrated. Interestingly, SP20 gene is nested inside a very hypothetical ORF, but transcribed in a reverse sense. Northern and RT-PCR analyses could not detect the tran-script from the hypothetical ORF, and therefore exclude the expression of the spurious gene. This is the first example that a genetic locus predicted for protein-coding gene actually encodes a small non-messenger RNA in S. pombe.
基金the National Natural Science Foundation of China (Grant Nos. 30230200 & 30370328) the funds from the Ministry of Education of China and Natural Science Foundation of Guangdong Province (Grant No. IRT0447, NSF-05200303) the National Basic Research Program (Grant No. 2005CB724600).
文摘From a specialized cDNA library, four novel box H/ACA snoRNAs, named GLsR22, GLsR23, GLsR24 and GLsR25, were identified from the primitive eukaryote, Giardia lamblia. Bioinformat- ics analyses indicated that all of them can be poten- tially folded into double hairpins, the typical secon- dary structures of box H/ACA snoRNAs. GLsR24 and GLsR25 are predicted to guide the site-specific pseudouridylation at U1753 and U2396 on 23S rRNA, respectively, while GLsR22 and GLsR23 belong to the family of “orphan” snoRNAs. All of the four novel snoRNAs are encoded by single copy genes and located in small intergenic regions. Interestingly, compared with the counterparts previously reported in Archaea and other unicellular protozoan, the box H/ACA snoRNAs identified from G. lamblia have unique structural features, implying that snoRNAs evolved from prokaryotes to eukaryotes in different ways.
基金Supported by Grants from the National Institute of Health to YiTao Yu,No.GM104077 and AG39559by the University of Rochester CTSA award(to Yi-Tao Yu)from the National Center for Advancing Translational Sciences of the National Institute of Health,No.UL1TR000042
文摘Pseudouridines(Ψs) are the most abundant and highly conserved modified nucleotides found in various stable RNAs of all organisms. Most Ψs are clustered in regions that are functionally important for pre-m RNA splicing. Ψ has an extra hydrogen bond donor that endows RNA molecules with distinct properties that contribute significantly to RNA-mediated cellular processes. Experimental data indicate that spliceosomal sn RNA pseudouridylation can be catalyzed by both RNA-dependent and RNA-independent mechanisms. Recent work has also demonstrated that pseudouridylation can be induced at novel positions under stress conditions, suggesting a regulatory role for Ψ.
