Cotranscriptional recognition of human intronic box H/ACA snoRNAs occurs in a splicing-independent manner.
about
The coding/non-coding overlapping architecture of the gene encoding the Drosophila pseudouridine synthasehNaf1 is required for accumulation of human box H/ACA snoRNPs, scaRNPs, and telomeraseAn enhanced H/ACA RNP assembly mechanism for human telomerase RNADyskeratosis congenita mutations in the H/ACA domain of human telomerase RNA affect its assembly into a pre-RNPSmall RNAs with big implications: new insights into H/ACA snoRNA function and their role in human diseaseGeneration of a mouse model with down-regulated U50 snoRNA (SNORD50) expression and its organ-specific phenotypic modulationTranscriptional control of an essential ribozyme in Drosophila reveals an ancient evolutionary divide in animalsThe structure and function of small nucleolar ribonucleoproteins.Dynamics of Human Telomerase Holoenzyme Assembly and Subunit Exchange across the Cell Cycle.Biogenesis of telomerase ribonucleoproteinsSmD3 regulates intronic noncoding RNA biogenesisIntrons and gene expression: cellular constraints, transcriptional regulation, and evolutionary consequences.Involvement of SRSF11 in cell cycle-specific recruitment of telomerase to telomeres at nuclear specklesIdentification of genes that function in the biogenesis and localization of small nucleolar RNAs in Saccharomyces cerevisiae.Dual function of C/D box small nucleolar RNAs in rRNA modification and alternative pre-mRNA splicing.Noncoding RNAs of the H/ACA family.Biogenesis and intranuclear trafficking of human box C/D and H/ACA RNPs.MicroRNA-biogenesis and Pre-mRNA splicing crosstalkNuclear networking fashions pre-messenger RNA and primary microRNA transcripts for function.Structures of ribonucleoprotein particle modification enzymes.Assembly and trafficking of box C/D and H/ACA snoRNPsRNA modification in Cajal bodies.Catalytically active telomerase holoenzyme is assembled in the dense fibrillar component of the nucleolus during S phase.Intron retention: a human DKC1 gene common splicing event.Cyclin-dependent kinase 9 links RNA polymerase II transcription to processing of ribosomal RNAEfficient and specific knockdown of small non-coding RNAs in mammalian cells and in mice.Human intron-encoded AluACA RNAs and telomerase RNA share a common element promoting RNA accumulation.The position of yeast snoRNA-coding regions within host introns is essential for their biosynthesis and for efficient splicing of the host pre-mRNA.Human intron-encoded Alu RNAs are processed and packaged into Wdr79-associated nucleoplasmic box H/ACA RNPs.Integrating snoRNP assembly with mRNA biogenesis.Current Perspectives of Telomerase Structure and Function in Eukaryotes with Emerging Views on Telomerase in Human Parasites.Noncoding RNA
P2860
Q21263003-5E02A748-EBA1-43C7-B984-91551AADB3F1Q24315010-D72E1576-1B04-4EB8-BDE7-808F91E39061Q24316597-52C0D0A1-804F-4122-A920-48E722C2F05FQ24647530-7B167D24-C9E1-4147-993A-5543B5D35567Q27016076-421B308D-092F-45F5-AEAE-CED3DF87929BQ27309063-22F79BA4-8441-47F1-A9E5-E30F1B69AAB4Q27311580-0502FB83-33C7-481E-8CD7-230F95548CABQ35781843-F2F8CF7C-B0C4-441F-88A2-6C48893220D0Q36065063-A2147881-3718-41B5-AD70-2BF94021BE77Q36246606-1C64C501-EE08-4B6B-A0CF-294462C361BEQ36276752-24E74A39-783E-4A9B-BC11-EDABE85E0F77Q36302418-3D2FDA49-4BA8-4B2B-8DB3-FDEEE908BA71Q36676620-AAE0F260-961B-40EA-9DE6-007A10BFDCD0Q36711283-A42F9429-0AB8-410D-8786-8B770FD28C5EQ36742729-EEA2AA87-3AE0-4425-AB20-F8FF07B76668Q36768163-16EB614A-1994-45AC-8FE1-4D78E2E05F9DQ36768167-D84F9124-CE53-4415-A4EA-7C52B6EB9EDFQ37552759-91A7621E-E20A-47E3-9A07-7CA97B8DD270Q37651988-648D08B6-7E27-411B-9158-989B3172EE59Q37812407-4FFDE19C-B3D1-4D22-875E-61D486D3F99AQ38974934-E2B92454-AC91-4954-92DE-0AD564E5FD6EQ38989338-C62621DA-4CAC-4CAD-BB72-D15F0202B4F6Q39045392-2136A8D1-6717-4384-AC8E-1E7FAF842335Q39064121-16C365A3-B9B6-4D09-BDF9-E8DED66DDC3EQ39142936-23516C7C-169F-4422-9382-2F2F7D4B3214Q39634021-2C9E2DE2-EAA8-463F-8747-71D42C22E284Q40568869-DE6F06BA-874A-43A6-9CF5-B096289B6A21Q41500554-39B6FFA9-5FCE-4B6D-869E-DD470B2A27E6Q42323459-D941CB10-B8E8-45BF-838C-19352E6D5275Q42408106-60AFED09-47DC-49C7-A77E-338D97E8D6DCQ48023136-0AE232B0-C45B-470B-9D29-99567E464A13Q56990781-9988CBBC-4F42-4092-998B-157DB6B8AE5C
P2860
Cotranscriptional recognition of human intronic box H/ACA snoRNAs occurs in a splicing-independent manner.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
Cotranscriptional recognition ...... a splicing-independent manner.
@en
Cotranscriptional recognition ...... a splicing-independent manner.
@nl
type
label
Cotranscriptional recognition ...... a splicing-independent manner.
@en
Cotranscriptional recognition ...... a splicing-independent manner.
@nl
prefLabel
Cotranscriptional recognition ...... a splicing-independent manner.
@en
Cotranscriptional recognition ...... a splicing-independent manner.
@nl
P2860
P1476
Cotranscriptional recognition ...... a splicing-independent manner
@en
P2093
Arnold M Kiss
Tamás Kiss
P2860
P304
P356
10.1128/MCB.26.7.2540-2549.2006
P407
P577
2006-04-01T00:00:00Z