rRNA complementarity within mRNAs: a possible basis for mRNA-ribosome interactions and translational control.
about
Translation by ribosome shunting on adenovirus and hsp70 mRNAs facilitated by complementarity to 18S rRNAChanges in transcript abundance relating to colony collapse disorder in honey bees (Apis mellifera)Identification of two short internal ribosome entry sites selected from libraries of random oligonucleotides.A 9-nt segment of a cellular mRNA can function as an internal ribosome entry site (IRES) and when present in linked multiple copies greatly enhances IRES activity.Transcript leader regions of two Saccharomyces cerevisiae mRNAs contain internal ribosome entry sites that function in living cells.The ribosome filter redux.The ribosome filter hypothesis.The internal ribosome entry site (IRES) contained within the RNA-binding motif protein 3 (Rbm3) mRNA is composed of functionally distinct elements.Sounds of silence: synonymous nucleotides as a key to biological regulation and complexity.A six-nucleotide segment within the 3' untranslated region of hibiscus chlorotic ringspot virus plays an essential role in translational enhancement.Complementarity between the mRNA 5' untranslated region and 18S ribosomal RNA can inhibit translationrRNA-complementarity in the 5' untranslated region of mRNA specifying the Gtx homeodomain protein: evidence that base- pairing to 18S rRNA affects translational efficiencySaturation mutagenesis of a +1 programmed frameshift-inducing mRNA sequence derived from a yeast retrotransposon.Biochemical and functional analysis of a 9-nt RNA sequence that affects translation efficiency in eukaryotic cells.Common genetic variants of the β2-adrenergic receptor affect its translational efficiency and are associated with human longevityEvidence for context-dependent complementarity of non-Shine-Dalgarno ribosome binding sites to Escherichia coli rRNAIdentification of protein-coding sequences using the hybridization of 18S rRNA and mRNA during translation.Dominant genetic screen for cofactors that enhance antisense RNA-mediated gene silencing in fission yeastA systematic computational analysis of the rRNA-3' UTR sequence complementarity suggests a regulatory mechanism influencing post-termination events in metazoan translation.The importance of inter- and intramolecular base pairing for translation reinitiation on a eukaryotic bicistronic mRNA.A 5' Leader of Rbm3, a Cold Stress-induced mRNA, Mediates Internal Initiation of Translation with Increased Efficiency under Conditions of Mild Hypothermia.Expression of distinct maternal and somatic 5.8S, 18S, and 28S rRNA types during zebrafish development.An evolutionary conserved pattern of 18S rRNA sequence complementarity to mRNA 5' UTRs and its implications for eukaryotic gene translation regulation.A bipartite sequence motif induces translation reinitiation in feline calicivirus RNA.The 5' and 3' extremities of the satellite tobacco necrosis virus translational enhancer domain contribute differentially to stimulation of translation.Mechanisms of apoptosis induced by purine nucleosides in astrocytes.Osmotic regulation and tissue localization of the myo-inositol biosynthesis pathway in tilapia (Oreochromis mossambicus) larvae.An mRNA-rRNA base-pairing mechanism for translation initiation in eukaryotes.Translational control of specific genes during differentiation of HL-60 cells.Leader sequence of a plant ribosomal protein gene with complementarity to the 18S rRNA triggers in vitro cap-independent translation.
P2860
Q24609345-836C0810-D772-4F01-8051-170429B2200FQ24643908-26C2D65F-877F-4782-9DC8-79CA74FA7930Q30651973-83F5DE88-E644-4202-A61A-7C6478A4AAC4Q33890321-01B3BD13-69B7-4948-9D5E-BFD13DB24FEFQ34087580-A3036870-DA3F-495D-99E7-ADE76C1836B1Q34094025-EE93B3E7-4723-44A1-9A23-26DB0D6F6FFDQ34148799-C9F50889-005C-4385-A41A-6DCDAD6CD230Q34208438-CEAD265E-4CEC-42FA-BDEE-5E086ECF7E8CQ34321074-E912A2DA-7815-4943-BAE9-84D4255F04DBQ34329266-FD7BD143-A385-4855-A9A8-DB548E5338AFQ34362582-A9937A89-2567-4B8C-9888-982372392223Q34990012-F374ABAA-C236-402A-81B2-C02585CBDAA1Q36088349-5818E256-E094-4F5A-BC8B-8BB91C135238Q36447977-DE8FB265-1395-4E85-88CB-AF192DD51A54Q36788630-A164E7F6-3548-40BF-99EA-697E1E9E2921Q36884686-BC8C63C8-714D-43E0-BCCB-180076796A7BQ37077369-673ADC8E-2311-45E2-A61A-D28F25496743Q39615521-45B9E047-8BBE-4D62-B95E-710405B939BEQ39758118-BE46CE89-E178-49DB-A584-39057DCEECACQ39885679-064A19EC-519B-4B11-8769-74C0EC5B376EQ40790160-B6BD8A68-15C8-4346-97C0-02F150719019Q41032637-EAD52FCB-FBE1-4ED9-BEBD-AA1E33CB519AQ42585684-9DBCC30A-1E18-4EDD-97FA-2EE998EB1093Q42608483-8B2AE8A2-D1CB-481F-B367-1C4AC9F538C8Q43093509-FA590E79-91EA-4CAE-BE20-D4D0A01E57E9Q43968136-E7420CB2-99BC-4C66-A61F-D28E26E11C0EQ46060617-99020E3C-8293-4987-9970-5A1EBDB34B34Q46260985-C16B734A-7AA9-4319-870F-C00640C530DDQ47966221-4C826C17-7DCE-4FE8-9682-D8ACCE7B4B55Q49085198-3966B767-9D3B-4D67-90DC-DD8E692607B9
P2860
rRNA complementarity within mRNAs: a possible basis for mRNA-ribosome interactions and translational control.
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
1998年论文
@zh
1998年论文
@zh-cn
name
rRNA complementarity within mR ...... ons and translational control.
@ast
rRNA complementarity within mR ...... ons and translational control.
@en
type
label
rRNA complementarity within mR ...... ons and translational control.
@ast
rRNA complementarity within mR ...... ons and translational control.
@en
prefLabel
rRNA complementarity within mR ...... ons and translational control.
@ast
rRNA complementarity within mR ...... ons and translational control.
@en
P2093
P2860
P356
P1476
rRNA complementarity within mR ...... ions and translational control
@en
P2093
P2860
P304
12238-12243
P356
10.1073/PNAS.95.21.12238
P407
P50
P577
1998-10-01T00:00:00Z