Co-variation of tRNA abundance and codon usage in Escherichia coli at different growth rates.
about
Design parameters to control synthetic gene expression in Escherichia coliRsfA (YbeB) proteins are conserved ribosomal silencing factorsRibosomal history reveals origins of modern protein synthesisCommunity-wide analysis of microbial genome sequence signaturesComparative genomics of the pennate diatom Phaeodactylum tricornutumRibosome stalling and peptidyl-tRNA drop-off during translational delay at AGA codonsCodon usage: nature's roadmap to expression and folding of proteinsSynonymous codon usage influences the local protein structure observedSlow peptide bond formation by proline and other N-alkylamino acids in translationRelative predicted protein levels of functionally associated proteins are conserved across organismsDifferences in codon bias cannot explain differences in translational power among microbesWhat makes ribosome-mediated transcriptional attenuation sensitive to amino acid limitation?The genomic pattern of tDNA operon expression in E. coli.Excess of charged tRNALys maintains low levels of peptidyl-tRNA hydrolase in pth(Ts) mutants at a non-permissive temperature.TFAM detects co-evolution of tRNA identity rules with lateral transfer of histidyl-tRNA synthetaseSilent Polymorphisms: Can the tRNA Population Explain Changes in Protein Properties?Perspectives and Insights into the Competition for Aminoacyl-tRNAs between the Translational Machinery and for tRNA Dependent Non-Ribosomal Peptide Bond FormationDecoding mechanisms by which silent codon changes influence protein biogenesis and functionThe tmRNA ribosome-rescue systemHow do bacteria tune translation efficiency?Detecting positive and purifying selection at synonymous sites in yeast and wormTranslational misreading: a tRNA modification counteracts a +2 ribosomal frameshiftTransfer RNA(Ala) recognizes transfer-messenger RNA with specificity; a functional complex prior to entering the ribosome?A dynamic competition between release factor 2 and the tRNA(Sec) decoding UGA at the recoding site of Escherichia coli formate dehydrogenase H.Tissue-specific differences in human transfer RNA expressionAdaptation of organisms by resonance of RNA transcription with the cellular redox cycleDeducing the kinetics of protein synthesis in vivo from the transition rates measured in vitroMitochondrial genomes of praying mantises (Dictyoptera, Mantodea): rearrangement, duplication, and reassignment of tRNA genes.Potentially conflicting selective forces that shape the vls antigenic variation system in Borrelia burgdorferiDiscovery and biological characterization of geranylated RNA in bacteriaAssociation between translation efficiency and horizontal gene transfer within microbial communitiestRNomics: analysis of tRNA genes from 50 genomes of Eukarya, Archaea, and Bacteria reveals anticodon-sparing strategies and domain-specific featuresTranslationally optimal codons associate with structurally sensitive sites in proteinsSynthetic biology challenges long-held hypotheses in translation, codon bias and transcription.Large-scale analysis of conserved rare codon clusters suggests an involvement in co-translational molecular recognition eventsQuantifying elongation rhythm during full-length protein synthesisInhibition of translation and cell growth by minigene expression.Protein functional features are reflected in the patterns of mRNA translation speed.Translation initiation region sequence preferences in Escherichia coli.The rate of peptidyl-tRNA dissociation from the ribosome during minigene expression depends on the nature of the last decoding interaction.
P2860
Q21090049-5D3CEA66-C042-408A-931D-3F9D163DEBAAQ21092415-FFDAE0F5-C7D8-4FC2-8458-6696CAB07CB4Q21134742-0163E863-D548-4C7A-9EEE-677F212E0214Q24490933-BF5B1C63-7B7F-434A-9077-8320F533774AQ24520337-F8BA8710-5555-4FA4-AAE2-E07A7AD5BA90Q24562411-123F6C3A-7A88-4FC2-B6E2-F8FE9CF36139Q24605121-2E26F550-98AB-48D7-9081-FCF3ABB16663Q24622765-A1C3AAFB-BD61-4B25-9E24-7A4F978979A2Q24646781-C8292709-3D62-4394-8D0A-80035A52CE88Q24791625-687B35B2-0B18-46EC-BAC8-2CEF2CECE41BQ24794895-75C6F8A4-4B80-48E6-B679-CEF421B30E28Q24811430-5C87464F-D2B8-47FD-A92B-790E831B783BQ24811526-469C77BB-53CE-4354-AAD2-D59CB0DFB07FQ25256487-749125D8-D197-4B4F-9CDD-C73150AF88A3Q25256702-13B998CD-5F6D-44D0-9AAD-F4116AB940D4Q26768439-5A2A6C93-9561-489C-9419-7874AF7A1D8FQ26771234-F15C8A07-F759-4CB2-B098-016784F59076Q26821951-4191F958-F184-4833-B6A3-080DB62A47C6Q26860816-9938A935-0182-4C44-815A-12C066881511Q28083131-27AC5DA5-E36D-4B85-8AF4-0582A4FC938DQ28276092-EA706868-C01C-4AAB-A0A9-BA393B127CCCQ28349567-B0C03AC7-FEFF-4B0A-81F7-3C0ADC365A91Q28366151-EDEAE95F-59BF-4784-9CD9-7F67C6AE8564Q28366355-3138DDE4-40B5-4FF5-A0B7-E5D21FFF16D0Q28469081-8874AA56-5C87-4F4D-8406-4084D1C45334Q28477265-2665B590-8A7A-4619-BF74-0671AF081CE4Q28544475-96C56D2E-8FED-4DE4-9C34-6110E4D2E2B1Q28603080-D6318F75-50E3-4578-86D0-B6C4C444D870Q28655171-BE0E54C3-1907-4ABE-B33F-DA4402242635Q28714163-F453A1F1-188C-4FEC-AB0D-8D30B5D4A666Q28743700-CE6EC6EA-C9AE-4CE6-AE0E-7942A0616D6BQ28768508-E1ECF6DF-11A1-4AD8-A740-716B35CD6EEDQ30376006-79CADAAC-22A5-44E9-8C23-447FC35EAA73Q30418054-E67462CD-74E5-4E92-8998-B5D91E7635B0Q30485422-B1E6F083-E0D4-4235-A040-8F19FF77B3BAQ30544357-8C2E5B72-0365-418A-9C1E-A4817C8600DDQ30649858-85E4178A-27D1-4F80-8DB7-6FA812C1FBEDQ30657282-D3EBF10F-E5BF-4549-8E6A-0607F34207F6Q30835368-6838026F-A2A2-4421-B5E4-D4AF1C76713AQ30920558-A97A8B55-C67B-468F-B236-D2E986A118CC
P2860
Co-variation of tRNA abundance and codon usage in Escherichia coli at different growth rates.
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年学术文章
@wuu
1996年学术文章
@zh
1996年学术文章
@zh-cn
1996年学术文章
@zh-hans
1996年学术文章
@zh-my
1996年学术文章
@zh-sg
1996年學術文章
@yue
1996年學術文章
@zh-hant
name
Co-variation of tRNA abundance ...... oli at different growth rates.
@en
Co-variation of tRNA abundance ...... oli at different growth rates.
@nl
type
label
Co-variation of tRNA abundance ...... oli at different growth rates.
@en
Co-variation of tRNA abundance ...... oli at different growth rates.
@nl
prefLabel
Co-variation of tRNA abundance ...... oli at different growth rates.
@en
Co-variation of tRNA abundance ...... oli at different growth rates.
@nl
P2093
P356
P1476
Co-variation of tRNA abundance ...... oli at different growth rates.
@en
P2093
P304
P356
10.1006/JMBI.1996.0428
P407
P577
1996-08-01T00:00:00Z