Identification of cis-acting intron and exon regions in influenza virus NS1 mRNA that inhibit splicing and cause the formation of aberrantly sedimenting presplicing complexes.
about
Identification of potential conserved RNA secondary structure throughout influenza A coding regionsBiased exon/intron distribution of cryptic and de novo 3' splice sitesFunctional association between viral and cellular transcription during influenza virus infection.Influenza virus NS1 protein inhibits pre-mRNA splicing and blocks mRNA nucleocytoplasmic transportHuman genomic sequences that inhibit splicing.Influenza C virus NS1 protein upregulates the splicing of viral mRNAs.Secondary structure of a conserved domain in an intron of influenza A M1 mRNAThe choice of alternative 5' splice sites in influenza virus M1 mRNA is regulated by the viral polymerase complex.A single polypyrimidine tract binding protein (PTB) binding site mediates splicing inhibition at mouse IgM exons M1 and M2.Vaccination of pigs against swine influenza viruses by using an NS1-truncated modified live-virus vaccineCooperation of 5' and 3' processing sites as well as intron and exon sequences in calcitonin exon recognition.Pre-mRNA splicing of IgM exons M1 and M2 is directed by a juxtaposed splicing enhancer and inhibitor.Trans-acting factors regulate the expression of CD44 splice variants.Novel exploitation of a nuclear function by influenza virus: the cellular SF2/ASF splicing factor controls the amount of the essential viral M2 ion channel protein in infected cells.The influenza A virus NS genome segment displays lineage-specific patterns in predicted RNA secondary structure.An intron element modulating 5' splice site selection in the hnRNP A1 pre-mRNA interacts with hnRNP A1.The polypyrimidine tract binding protein binds upstream of neural cell-specific c-src exon N1 to repress the splicing of the intron downstream.Identification of conserved RNA secondary structures at influenza B and C splice sites reveals similarities and differences between influenza A, B, and C.Influenza virus RNA structure: unique and common features.Influenza viruses and mRNA splicing: doing more with lessCompensatory signals associated with the activation of human GC 5' splice sitesControl of hnRNP A1 alternative splicing: an intron element represses use of the common 3' splice siteMutation analysis of a recombinant NS replicon shows that influenza virus NS1 protein blocks the splicing and nucleo-cytoplasmic transport of its own viral mRNA.A compensatory mutagenesis study of a conserved hairpin in the M gene segment of influenza A virus shows its role in virus replication.Identification of splicing silencers and enhancers in sense Alus: a role for pseudoacceptors in splice site repression.Antisense Oligonucleotides Modulating Activation of a Nonsense-Mediated RNA Decay Switch Exon in the ATM Gene.Establishment of a chimeric, replication-deficient influenza A virus vector by modulation of splicing efficiency.Strong RNA splicing enhancers identified by a modified method of cycled selection interact with SR protein.Novel exonic elements that modulate splicing of the human fibronectin EDA exon.Selection between a natural and a cryptic 5' splice site: a kinetic study of the effect of upstream exon sequences
P2860
Q24633659-C12E4B26-44DB-4098-9F71-CAF72E211EE9Q24817064-0B64A745-FD98-4960-A59B-D4680D594B27Q27863933-58FF13D8-34BF-4DB2-B6EE-A2841B8ECDBEQ28609810-0CF0F1ED-DAD3-4529-97BE-A5381AC882BAQ30910840-9AD8CE52-EABE-42FC-82EC-C2D6478C5F2EQ33614671-07A15165-71DE-453A-BB7F-AA45BA70F4B9Q34070147-722F13B4-907A-4E10-8A8A-7D148DDCF8A1Q34116597-6DC02E2E-48D8-489E-B3DA-D7E95CF443DEQ34365702-A1535FF1-1557-4495-85EE-C69126FE4320Q34561944-BAB82BBE-34F7-4372-9B35-200D50F9C7F5Q34735404-89933217-4B81-49CB-A58D-E1D8ECCE81A4Q35189351-E6EDEA77-553D-4282-98FC-C8A5F64870D4Q35905927-50325DE7-8A28-4CAC-B960-117B03582E9DQ35910336-C734C0BE-0EB0-44D0-8113-4645B9EA110CQ36024446-C86192DD-0783-4E6F-9002-F88E7915BA34Q36567405-47BC3EC7-282D-4C65-9E35-B875BE2F9611Q36570481-96C1663C-24D8-4D03-AF1A-5F17C479A4ACQ37493206-BBA05529-B790-47EA-B46F-82D9C2B3C2D1Q37798025-5F9FD2C0-2AFC-4EBE-81D7-FFF1CB3D6AF9Q38211561-60AA35F7-C15F-4566-AAEF-6B4A552DC26BQ38319037-2C399EBE-7806-44C5-9E9E-6A40E1444814Q39455784-63463316-766C-4158-A85E-DEF107BF55BDQ40135105-FEB0EDCA-753F-4CF1-81CB-DB6805BD1BEAQ40140942-C28590A7-4806-4E94-991A-94EF666BC305Q42124182-32D67FAD-D283-464B-AACB-35CE3083E044Q42177295-6CA22F6B-BF16-4803-AD76-720A209F97ECQ42707023-F60F5B71-91D9-49B6-A9C3-92DB5D686837Q49236501-6A60E623-EA32-4D0B-8419-5BAEDEF8CE78Q52191201-AF43AA57-74BF-4D8B-92A8-09E03F401BDFQ58796377-A329ADC3-18E6-4A82-93A7-BA973BF482A0
P2860
Identification of cis-acting intron and exon regions in influenza virus NS1 mRNA that inhibit splicing and cause the formation of aberrantly sedimenting presplicing complexes.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
1992年论文
@zh
1992年论文
@zh-cn
name
Identification of cis-acting i ...... menting presplicing complexes.
@en
type
label
Identification of cis-acting i ...... menting presplicing complexes.
@en
prefLabel
Identification of cis-acting i ...... menting presplicing complexes.
@en
P2093
P2860
P356
P1476
Identification of cis-acting i ...... menting presplicing complexes.
@en
P2093
P2860
P304
P356
10.1128/MCB.12.3.962
P407
P577
1992-03-01T00:00:00Z