Toward a structural understanding of IRES RNA function - Wikidata - wikimedia - TriplyDB

Toward a structural understanding of IRES RNA function

Toward a structural understanding of IRES RNA function

http://www.wikidata.org/entity/Q34017026

about

Pr77 and L1TcRz Kinetics of initiating polypeptide elongation in an IRES-dependent system RAN translation and frameshifting as translational challenges at simple repeats of human neurodegenerative disorders The structures of nonprotein-coding RNAs that drive internal ribosome entry site function Animal virus schemes for translation dominance Linking Α to Ω: diverse and dynamic RNA-based mechanisms to regulate gene expression by 5′-to-3′ communication Crystal structures of complexes containing domains from two viral internal ribosome entry site (IRES) RNAs bound to the 70S ribosome Initiation of Translation by Cricket Paralysis Virus IRES Requires Its Translocation in the Ribosome Diverse diseases from a ubiquitous process: the ribosomopathy paradox A translation-like cycle is a quality control checkpoint for maturing 40S ribosome subunits.Translation initiation: variations in the mechanism can be anticipated ATF2 translation is induced under chemotherapeutic drug-mediated cellular stress via an IRES-dependent mechanism in human hepatic cancer Bel7402 cells Initiation factor eIF2-independent mode of c-Src mRNA translation occurs via an internal ribosome entry site.Stabilization of RNA hairpins using non-nucleotide linkers and circularization.Global signatures of protein and mRNA expression levels.Dysregulating IRES-dependent translation contributes to overexpression of oncogenic Aurora A Kinase.Structural plasticity of Barley yellow dwarf virus-like cap-independent translation elements in four genera of plant viral RNAs.Structural determinants of an internal ribosome entry site that direct translational reading frame selection.Inhibition of encephalomyocarditis virus and poliovirus replication by quinacrine: implications for the design and discovery of novel antiviral drugs Alternative ways to think about cellular internal ribosome entry.Sequence signatures and mRNA concentration can explain two-thirds of protein abundance variation in a human cell line Regulation of eukaryotic gene expression by the untranslated gene regions and other non-coding elements RNA structural elements of hepatitis C virus controlling viral RNA translation and the implications for viral pathogenesis.Maintenance of Pdx1 mRNA translation in islet β-cells during the unfolded protein response.The activity of the HIV-1 IRES is stimulated by oxidative stress and controlled by a negative regulatory element Initiation of translation of the FMR1 mRNA Occurs predominantly through 5'-end-dependent ribosomal scanning Cellular IRES-mediated translation: the war of ITAFs in pathophysiological states.The genetic code as expressed through relationships between mRNA structure and protein function.Viral IRES prediction system - a web server for prediction of the IRES secondary structure in silico.Structural basis for the binding of IRES RNAs to the head of the ribosomal 40S subunit Nonsense-mediated mRNA decay immunity can help identify human polycistronic transcripts All things must pass: contrasts and commonalities in eukaryotic and bacterial mRNA decay.Functional and structural analysis of maize hsp101 IRES.Iron responsive mRNAs: a family of Fe2+ sensitive riboregulators.Investigation of IRES Insertion into the Genome of Recombinant MVA as a Translation Enhancer in the Context of Transcript Decapping.Structural architecture of an RNA that competitively inhibits RNase L.PSF: nuclear busy-body or nuclear facilitator?IRES-mediated translation of foot-and-mouth disease virus (FMDV) in cultured cells derived from FMDV-susceptible and -insusceptible animals.A new framework for understanding IRES-mediated translation.Alternative transcription start site selection leads to large differences in translation activity in yeast.

P2860

Q24598064-DF0D19DA-E10E-45AC-AD7F-E3CCF83C2040 Q26700123-2E83FD6C-7BCD-4A44-AD05-CED6C1A13847 Q26823908-FE7DAA6C-EAB1-44C0-B9F2-47BE7CD56734 Q26825738-9BCEB680-D1B3-43A6-B9B6-92539E2B39D1 Q26851527-C8466416-3EF8-4297-BC26-05792CE1D1DA Q27468861-6E8D40A8-5962-479C-8CCD-232B4D66CEA6 Q27666616-C07FF581-234E-4FD4-B147-A532FB73EDD7 Q27683626-7557026C-B5D1-4E00-B4DC-63D232B1B684 Q27694538-5028D110-9347-454E-A7AE-10A00DF82F1F Q27932368-E35CBD88-4A29-4452-80FB-9521625AF123 Q28298359-4A5FD6A0-CA03-44C8-A6FE-6E1471B18D44 Q28468346-045FE596-3EB4-4E70-AC75-F93F23DBCAE8 Q33648488-0609F856-09B7-4E94-B15F-3A9D787D4F9D Q33741196-200CCCC6-B18E-48E7-9B8E-0C05DED2B2C9 Q33874396-D42655FF-2370-4657-ACD8-55D32925E564 Q33944846-1DE3091C-86C3-4904-A9B4-A321B16DE076 Q34002589-5C886890-2074-4673-A7B9-9D76E355B1D4 Q34044402-6E1AF20A-9155-4675-8402-A1A138FD8476 Q34120213-CD2F8343-43EF-4E61-B201-F254097A5670 Q34121432-85515B45-51F5-404F-B829-BD9E71CA01A1 Q34133238-42ED6971-8B66-4C22-9E02-64A420D9B408 Q34271240-84D173A6-845C-4CEE-8026-725417942462 Q34314871-BD0A1B18-42D0-4301-B01F-58358253B57A Q34422487-A355FD46-3ADA-4FE0-9005-CD23F727C62E Q34559697-CF87AD12-226A-4E92-970B-EEA92C0A1F71 Q34612704-E0923BC1-D8BF-4A0F-8EF8-3A6E225AED72 Q34624747-0E18C0A1-74BF-45B8-AF97-2B4ECE185D0F Q34723238-2A25CEB1-85DB-44D3-B19F-4224E6DD4E90 Q35041249-95B3EE31-54EB-489D-A78C-F470170FF137 Q35088062-BCDEC4F7-41CB-40B2-B472-6478A2B989A2 Q35118819-AC7EC458-5346-4522-8758-08EAA43857EC Q35133366-4172249B-8F31-441E-BEEC-F003F28F119E Q35252903-22C5E1BC-724C-4B52-9469-EF1BB93A796F Q35627033-122F82C0-45B4-465C-8A16-8840F4D7FA17 Q35642108-8FD0CD0A-B532-4E75-B97D-92FDA76135E6 Q35682222-5E8E6C8E-34A1-4EE9-82D1-B070D4B7A3EA Q35772782-ADCD2BB4-4153-40EA-8D64-16740F39A883 Q35976938-2BD4A818-AE09-4681-A234-745801E9F7DA Q35992360-90DF3E9E-0566-4911-B605-5A906240A02F Q36418620-F9842CE1-EF2C-42BD-BCFD-34F4E3A23F24

P2860

Toward a structural understanding of IRES RNA function

http://www.wikidata.org/entity/Q34017026

description

2009 nî lūn-bûn

@nan

2009 թուականի Ապրիլին հրատարակուած գիտական յօդուած

@hyw

2009 թվականի ապրիլին հրատարակված գիտական հոդված

@hy

2009年の論文

@ja

2009年論文

@yue

2009年論文

@zh-hant

2009年論文

@zh-hk

2009年論文

@zh-mo

2009年論文

@zh-tw

2009年论文

@wuu

name

Toward a structural understanding of IRES RNA function

@ast

Toward a structural understanding of IRES RNA function

@en

Toward a structural understanding of IRES RNA function

@nl

type

label

Toward a structural understanding of IRES RNA function

@ast

Toward a structural understanding of IRES RNA function

@en

Toward a structural understanding of IRES RNA function

@nl

prefLabel

Toward a structural understanding of IRES RNA function

@ast

Toward a structural understanding of IRES RNA function

@en

Toward a structural understanding of IRES RNA function

@nl

P1433

Q34017026-013E2147-85A6-4006-A96D-9A36488E3E20

P1476

Q34017026-6D37C4BB-4007-412C-9880-6DC1B9759499

P2093

Q34017026-9F612455-1175-4347-AB15-04DC8FE41BDD

Q34017026-D600D06E-6524-4A2F-A240-61876C4A2BDF

P2860

Q34017026-0115D47C-9E5B-41D2-A4D3-D8CAB3D3CAF9

Q34017026-051A34D1-39E0-4F22-BC1D-BD9D32553D7E

Q34017026-0645B255-7DEC-482E-A7E8-93682101A0B0

Q34017026-0919D3D5-EB02-41A7-A029-BB10B4A729D4

Q34017026-0C9210F9-FC05-4F07-BC4C-232BD57D55C8

Q34017026-10BD6886-A44B-4636-ADCD-C625B3329D5F

Q34017026-11187EB8-A0F8-4A78-94B9-244C59F70EA4

Q34017026-129CDBAE-01D0-42EA-A55E-B8F730BB4967

Q34017026-1327AE2B-D451-4F7A-9A7C-0613438C1AD8

Q34017026-13726F19-1A93-48D4-8A83-4C09CA97CA76

P304

Q34017026-92BCD490-B85F-493E-A776-FF14C2E36DE0

P31

Q34017026-3C3AAE5F-5760-414F-BB83-5CC5A7D51E5F

P356

Q34017026-355EFFAA-FB0A-485E-9551-F3C83DC218EA

P433

Q34017026-7D29C720-0D51-4E42-99A9-635DA51250E9

P478

Q34017026-00C8B5C4-5C9E-4F50-A995-988AD025A2D1

P577

Q34017026-B299ECE9-C36B-46F5-8A07-C49369930190

P5875

Q34017026-16D349B6-8C5D-4377-878B-101A62D662E4

P698

Q34017026-1FDFD357-B14A-495C-9029-F8E1B3F9DBE1

P932

Q34017026-0AE9590B-25D2-4E19-801E-5AFFA8885EDB

P356

J.SBI.2009.03.005

P1433

Current Opinion in Structural Biology

P1476

Toward a structural understanding of IRES RNA function

@en

P2093

Jeffrey S Kieft

http://www.w3.org/2001/XMLSchema#string

Megan E Filbin

http://www.w3.org/2001/XMLSchema#string

P2860

In vitro expression of the HIV-2 genomic RNA is controlled by three distinct internal ribosome entry segments that are regulated by the HIV protease and the Gag polyprotein

Hypoxia-inducible factor-1alpha mRNA contains an internal ribosome entry site that allows efficient translation during normoxia and hypoxia

Structural organization of a viral IRES depends on the integrity of the GNRA motif.

Domains on the hepatitis C virus internal ribosome entry site for 40s subunit binding

RNA structure-based ribosome recruitment: lessons from the Dicistroviridae intergenic region IRESes

An enzymatic footprinting analysis of the interaction of 40S ribosomal subunits with the internal ribosomal entry site of hepatitis C virus

The Ribosome Binding Site of Hepatitis C Virus mRNA

Functional analyses of RNA structures shared between the internal ribosome entry sites of hepatitis C virus and the picornavirus porcine teschovirus 1 Talfan.

A potential RNA drug target in the hepatitis C virus internal ribosomal entry site.

Ribosomal proteins mediate the hepatitis C virus IRES-HeLa 40S interaction

P304

267-276

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1016/J.SBI.2009.03.005

http://www.w3.org/2001/XMLSchema#string

P433

3

http://www.w3.org/2001/XMLSchema#string

P478

19

http://www.w3.org/2001/XMLSchema#string

P577

2009-04-09T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

24273858

http://www.w3.org/2001/XMLSchema#string

P698

19362464

http://www.w3.org/2001/XMLSchema#string

P932

2757110

http://www.w3.org/2001/XMLSchema#string