Functional characterization of the eukaryotic SECIS elements which direct selenocysteine insertion at UGA codons
about
Composition and evolution of the vertebrate and mammalian selenoproteomesType 3 lodothyronine deiodinase: cloning, in vitro expression, and functional analysis of the placental selenoenzymeThe redox state of SECIS binding protein 2 controls its localization and selenocysteine incorporation functionType 2 iodothyronine deiodinase is highly expressed in human thyroidCloning of the mammalian type II iodothyronine deiodinase. A selenoprotein differentially expressed and regulated in human and rat brain and other tissuesPseudoknot-dependent read-through of retroviral gag termination codons: importance of sequences in the spacer and loop 2SECIS-SBP2 interactions dictate selenocysteine incorporation efficiency and selenoprotein hierarchyA novel RNA binding protein, SBP2, is required for the translation of mammalian selenoprotein mRNAsThe human selenoproteome: recent insights into functions and regulationSelenoprotein P-expression, functions, and roles in mammalsThe molecular biology of selenocysteineCrystal structure of human selenocysteine tRNAMammalian selenoprotein in which selenocysteine (Sec) incorporation is supported by a new form of Sec insertion sequence elementGene- and genome-based analysis of significant codon patterns in yeast, rat and mice genomes with the CUT Codon UTilization toolDual functions of codons in the genetic codeSelenium regulation of transcript abundance and translational efficiency of glutathione peroxidase-1 and -4 in rat liverDecoding apparatus for eukaryotic selenocysteine insertion.Nuclease sensitive element binding protein 1 associates with the selenocysteine insertion sequence and functions in mammalian selenoprotein translationThe selenocysteine-specific elongation factor contains a novel and multi-functional domainTrends in selenium utilization in marine microbial world revealed through the analysis of the global ocean sampling (GOS) projectAn essential non-Watson-Crick base pair motif in 3'UTR to mediate selenoprotein translationCrystal structures of the human elongation factor eEFSec suggest a non-canonical mechanism for selenocysteine incorporation.The use of duplex-specific nuclease in ribosome profiling and a user-friendly software package for Ribo-seq data analysis.Polymorphism analysis of six selenoprotein genes: support for a selective sweep at the glutathione peroxidase 1 locus (3p21) in Asian populationsPodocyte specific knock out of selenoproteins does not enhance nephropathy in streptozotocin diabetic C57BL/6 miceSelf containment, a property of modular RNA structures, distinguishes microRNAsUsing chemical approaches to study selenoproteins-focus on thioredoxin reductasesmRNA surveillance in eukaryotes: kinetic proofreading of proper translation termination as assessed by mRNP domain organization?Selenium deficiency reduces the abundance of mRNA for Se-dependent glutathione peroxidase 1 by a UGA-dependent mechanism likely to be nonsense codon-mediated decay of cytoplasmic mRNA.Regulation of selenoproteins and methionine sulfoxide reductases A and B1 by age, calorie restriction, and dietary selenium in mice.Reduced Dietary Selenium Impairs Vascular Function by Increasing Oxidative Stress in Sprague-Dawley Rat Aortas.Rat skeletal muscle selenoprotein W: cDNA clone and mRNA modulation by dietary selenium.Regulation and function of selenoproteins in human diseaseProcessive selenocysteine incorporation during synthesis of eukaryotic selenoproteins.Transdifferentiation of chicken embryonic cells into muscle cells by the 3' untranslated region of muscle tropomyosin.The efficiency of selenocysteine incorporation is regulated by translation initiation factors.Translational termination efficiency in mammals is influenced by the base following the stop codon.Selenocysteine insertion sequence binding protein 2L is implicated as a novel post-transcriptional regulator of selenoprotein expression.Selenocysteine incorporation in eukaryotes: insights into mechanism and efficiency from sequence, structure, and spacing proximity studies of the type 1 deiodinase SECIS element.Cis-acting elements are required for selenium regulation of glutathione peroxidase-1 mRNA levels.
P2860
Q21090938-33B60495-60E6-49A4-8323-03DF6A94974CQ24316249-99DAB292-9040-4695-818F-B5E2C1180725Q24548981-087D9441-BA3F-4DB4-8653-64331B874EA7Q24562040-9BF96BCB-3EBD-42F9-B9DF-3964A43E7DA1Q24562058-AD5C8A84-3D39-4975-93BD-EEADB7579972Q24568287-42776319-0E51-4094-92CF-9591715A2FF0Q24595047-F59DE367-A812-44E2-8097-20E8436DDBB2Q24601998-6F032D8A-5A78-46DC-9590-7D6F2111373FQ24626002-05BD92D0-FEE1-44AB-987A-103B6DD44B14Q24651837-8CC596F3-7487-4510-B6D0-D5010D8F5F5EQ27000485-4AE6490D-5C08-4AC7-8D81-EAD0E075379DQ27657082-3CFCCE88-376F-4948-B29E-19989939BC72Q27863311-8BA4FC5F-E504-4EC7-9509-75415E2FA379Q27930810-4CB8C93A-EF03-4790-8C3A-AB8C6F201C65Q28281447-9A03C814-66EA-4A03-A68D-F99243B30D3BQ28344447-B624BE3E-562A-4EF1-B13F-952C07F1A83DQ28511689-BE30BFEC-DBA1-4630-B715-1F4163EEAD38Q28582676-969C5A30-BD72-448A-88C0-37B33DE4964CQ28591877-9EA5ADAA-CBC3-4C78-9F85-200B39A30FD4Q28754411-D3868A51-6832-4362-A061-910B33A96F13Q28768522-3EEE8C38-0774-4B6A-AFC2-DA67252119ECQ30821031-448BB6E5-A4A0-4011-A97A-B6D8C634E605Q30988068-19E0FFCD-A597-4896-99D9-4466BA0EF2FCQ33265968-56987C96-8B0A-428E-A57B-2AAFE6BB4FD2Q33353866-0B09108E-295A-435C-A052-1C3071B8B0AAQ33363120-B978E2AB-71F4-43ED-8898-371E1EAF4672Q33637257-A3AC7898-0258-4A9B-9004-8DB83E17856DQ33665734-72230226-118F-42B3-95E7-EF2FCF98EA3CQ33786578-F898A742-2727-445B-B82F-E86A2297885DQ33830115-02063DF6-48E6-4D67-B1AC-DE0580EF8FD1Q33839609-5F37024A-F791-4DC9-92EA-F6D48DCF28A6Q33923871-547EB01F-E9EE-470D-881F-8BDB0B66F88DQ34029071-51FDA267-725D-4F02-A276-99FF39E53295Q34044107-4A06D7C3-4E08-4F09-9848-CF2A0F9D8DE9Q34062717-AA46535F-51D8-45A5-A392-48FA5AE7A57BQ34116590-615D149F-ED62-43D0-ACB2-470DB63FAC45Q34222816-53404039-FDC7-4948-9A63-5BB76431B56CQ34243917-E42559B3-9359-41E6-80C7-5EF3C83AAEECQ34361023-23A9A8E3-9288-4D06-9280-0590486713BEQ34361471-A880C716-CDA5-4602-BE04-21FA2746BD71
P2860
Functional characterization of the eukaryotic SECIS elements which direct selenocysteine insertion at UGA codons
description
1993 nî lūn-bûn
@nan
1993 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
1993 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
1993年の論文
@ja
1993年学术文章
@wuu
1993年学术文章
@zh-cn
1993年学术文章
@zh-hans
1993年学术文章
@zh-my
1993年学术文章
@zh-sg
1993年學術文章
@yue
name
Functional characterization of ...... steine insertion at UGA codons
@ast
Functional characterization of ...... steine insertion at UGA codons
@en
Functional characterization of ...... steine insertion at UGA codons
@nl
type
label
Functional characterization of ...... steine insertion at UGA codons
@ast
Functional characterization of ...... steine insertion at UGA codons
@en
Functional characterization of ...... steine insertion at UGA codons
@nl
prefLabel
Functional characterization of ...... steine insertion at UGA codons
@ast
Functional characterization of ...... steine insertion at UGA codons
@en
Functional characterization of ...... steine insertion at UGA codons
@nl
P2093
P2860
P3181
P1433
P1476
Functional characterization of ...... steine insertion at UGA codons
@en
P2093
P2860
P304
P3181
P356
10.1002/J.1460-2075.1993.TB06001.X
P407
P577
1993-08-01T00:00:00Z