The simian retrovirus-1 constitutive transport element, unlike the HIV-1 RRE, uses factors required for cellular mRNA export.
about
Specific interaction between RNA helicase A and Tap, two cellular proteins that bind to the constitutive transport element of type D retrovirusTAP (NXF1) belongs to a multigene family of putative RNA export factors with a conserved modular architectureHerpes simplex virus ICP27 protein directly interacts with the nuclear pore complex through Nup62, inhibiting host nucleocytoplasmic transport pathwaysMatrin 3 is a co-factor for HIV-1 Rev in regulating post-transcriptional viral gene expressionNucleoporins nup98 and nup214 participate in nuclear export of human immunodeficiency virus type 1 RevInhibition of human immunodeficiency virus Rev and human T-cell leukemia virus Rex function, but not Mason-Pfizer monkey virus constitutive transport element activity, by a mutant human nucleoporin targeted to Crm1TAP binds to the constitutive transport element (CTE) through a novel RNA-binding motif that is sufficient to promote CTE-dependent RNA export from the nucleusFormation of Tap/NXT1 heterodimers activates Tap-dependent nuclear mRNA export by enhancing recruitment to nuclear pore complexesThe C-terminal domain of TAP interacts with the nuclear pore complex and promotes export of specific CTE-bearing RNA substratesNXT1 (p15) is a crucial cellular cofactor in TAP-dependent export of intron-containing RNA in mammalian cells.A role for RNA helicase A in post-transcriptional regulation of HIV type 1The carboxyl terminus of RNA helicase A contains a bidirectional nuclear transport domainPre-mRNA splicing alters mRNP composition: evidence for stable association of proteins at exon-exon junctionsThe nucleoporin nup153 plays a critical role in multiple types of nuclear exportCofactor requirements for nuclear export of Rev response element (RRE)- and constitutive transport element (CTE)-containing retroviral RNAs. An unexpected role for actin.Nuclear trafficking of retroviral RNAs and Gag proteins during late steps of replicationThe structure of the mRNA export factor TAP reveals a cis arrangement of a non-canonical RNP domain and an LRR domainThe crystal structure and mutational analysis of a novel RNA-binding domain found in the human Tap nuclear mRNA export factor.The yeast hnRNP-Like proteins Yra1p and Yra2p participate in mRNA export through interaction with Mex67p.Nuclear export of messenger RNASam68, RNA helicase A and Tap cooperate in the post-transcriptional regulation of human immunodeficiency virus and type D retroviral mRNAU2AF participates in the binding of TAP (NXF1) to mRNAUsing viral species specificity to define a critical protein/RNA interaction surfaceREF, an evolutionary conserved family of hnRNP-like proteins, interacts with TAP/Mex67p and participates in mRNA nuclear export.The human Tap protein is a nuclear mRNA export factor that contains novel RNA-binding and nucleocytoplasmic transport sequencesStructural and functional analysis of the RNA transport element, a member of an extensive family present in the mouse genomeTransport into and out of the nucleus.The exon-exon junction complex provides a binding platform for factors involved in mRNA export and nonsense-mediated mRNA decayThe asymmetric distribution of the constituents of the Ran system is essential for transport into and out of the nucleusTap and NXT promote translation of unspliced mRNA.Interferon-induced HERC5 is evolving under positive selection and inhibits HIV-1 particle production by a novel mechanism targeting Rev/RRE-dependent RNA nuclear export.The constitutive transport element (CTE) of Mason-Pfizer monkey virus (MPMV) accesses a cellular mRNA export pathway.An element in the 3' untranslated region of human LINE-1 retrotransposon mRNA binds NXF1(TAP) and can function as a nuclear export element.An ancient family of human endogenous retroviruses encodes a functional homolog of the HIV-1 Rev protein.Leptomycin B inhibits equine infectious anemia virus Rev and feline immunodeficiency virus rev function but not the function of the hepatitis B virus posttranscriptional regulatory elementSplicing-independent expression of the herpes simplex virus type 1 thymidine kinase gene is mediated by three cis-acting RNA subelements.Rous sarcoma virus DR posttranscriptional elements use a novel RNA export pathway.Persistent infection of rhesus macaques by the rev-independent Nef(-) simian immunodeficiency virus SIVmac239: replication kinetics and genomic stabilityIdentification of a novel posttranscriptional regulatory element by using a rev- and RRE-mutated human immunodeficiency virus type 1 DNA proviral clone as a molecular trapRetroviral constitutive transport element evolved from cellular TAP(NXF1)-binding sequences.
P2860
Q22254732-C4BDC67E-ADD8-49DB-846C-779557DFEFD4Q24290505-401D4DF3-BC31-4A74-8C9F-7289DF53FC27Q24305296-AD44202E-F666-47ED-BCCE-A4973271F6B6Q24315683-53693445-7689-4D84-8B0C-756F2D70DB8BQ24516934-1DC16B9D-FB8E-49C9-99FD-079603F6B8B3Q24523655-4BF73AA6-D105-4020-8939-1C6732A6E553Q24534064-ABF574A8-EAD2-4809-9A46-3612D46CD84CQ24538228-FA768EF9-7E7B-4F15-8A9C-C57FDFEEFA27Q24539652-E4D8BDBB-5696-4AAC-8ADB-D8CB6FEA7227Q24550980-71EF556E-BA52-4387-93A4-ED85183B62EAQ24554433-4D21FD87-241F-4791-BDF7-4A6AA890EDC7Q24554506-C9182C63-17A5-4928-B206-04EC6F4C8F64Q24606339-7C8C5BDE-706A-483E-B1D1-4D27A32EA0ABQ24641817-F4025907-583D-4E49-A131-09E75104A11EQ24653594-D8124CFA-B395-4A7D-B8A3-7DB8C3F223C2Q27026209-CB669EB4-B6EA-4B45-89A2-409BCE02CB9EQ27627787-A741DAAD-D670-4C29-93E2-1B8864412A71Q27637917-B6AC5F0B-41FD-42A6-9415-07AB96F76444Q27939919-9C020FF1-72E4-4028-A433-D82EBC290670Q28081155-3CB5968B-1217-4904-B71C-5876BE052EFFQ28144261-CADC630D-84C8-40FD-8EF6-A7BE64B62150Q28207777-8C84A56A-F960-4B6B-B21B-1C4664BDA03CQ28365327-7F6CF379-5614-4985-B990-324D9DB79EB7Q28587508-57B82F87-B4EF-462D-8812-6A0A4BB78A06Q28646657-3B7791AF-04D4-416B-808E-00763F92BF7FQ28770030-09E8DFDD-4F05-4D40-8C26-32CF6C153496Q29615611-EAC086A6-0487-451F-A1A9-000BBBB7CAF9Q29616054-EDB95DE9-8FB7-487B-AC1A-4241D75AF889Q29616325-CFD89F72-566E-4D49-BBBE-8F41B805F225Q30312038-87316731-CB9B-41E5-A9D3-AFC6B550CA10Q30413069-13A7F232-6D65-46E1-AEAA-BC2C61798A6DQ30448360-17AC7757-B7A4-4288-AF1E-E86713E4B1EAQ31052823-1FA3A710-A36F-4513-9806-94EC960F56F2Q33292228-5B7F71C2-F69C-4613-AD5B-0A2C2D4DB8A9Q33784046-031F1DF7-0BC6-47F7-B5E6-D7638BF59E0CQ33786072-825163CC-5711-448D-A61C-FA7CE0DBD8D8Q33811488-1BCF21AC-31A2-4CD0-BA8B-583626012715Q33816133-6FB89A8C-FDB5-4970-B72D-5D8C12838BE1Q33840359-5C578154-6416-48FE-86AD-C1C3C2B6545AQ33841949-26C74F2B-07B7-45B4-B20E-C928F05793CC
P2860
The simian retrovirus-1 constitutive transport element, unlike the HIV-1 RRE, uses factors required for cellular mRNA export.
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年学术文章
@wuu
1997年学术文章
@zh
1997年学术文章
@zh-cn
1997年学术文章
@zh-hans
1997年学术文章
@zh-my
1997年学术文章
@zh-sg
1997年學術文章
@yue
1997年學術文章
@zh-hant
name
The simian retrovirus-1 consti ...... ired for cellular mRNA export.
@en
The simian retrovirus-1 consti ...... ired for cellular mRNA export.
@nl
type
label
The simian retrovirus-1 consti ...... ired for cellular mRNA export.
@en
The simian retrovirus-1 consti ...... ired for cellular mRNA export.
@nl
prefLabel
The simian retrovirus-1 consti ...... ired for cellular mRNA export.
@en
The simian retrovirus-1 consti ...... ired for cellular mRNA export.
@nl
P2093
P1433
P1476
The simian retrovirus-1 consti ...... ired for cellular mRNA export.
@en
P2093
Izaurralde E
Saavedra C
P304
P356
10.1016/S0960-9822(06)00288-0
P407
P577
1997-09-01T00:00:00Z