scholarly article | Q13442814 |
P356 | DOI | 10.1016/0022-2836(84)90442-X |
P953 | full work available at URL | https://api.elsevier.com/content/article/PII:002228368490442X?httpAccept=text/plain |
https://api.elsevier.com/content/article/PII:002228368490442X?httpAccept=text/xml | ||
P698 | PubMed publication ID | 6374155 |
P2093 | author name string | E. J. Murgola | |
F. T. Pagel | |||
K. A. Hijazi | |||
P2860 | cites work | Three Different Missense Suppressor Mutations Affecting the tRNA GGG Gly Species of Escherichia coli | Q33791826 |
Suppression of glutamic acid codons by mutant glycine transfer ribonucleic acid | Q33792295 | ||
A novel method for site-directed mutagenesis: its application to an eukaryotic tRNAPro gene promoter | Q33927932 | ||
Glutamic acid codon suppressors derived from a unique species of glycine transfer ribonucleic acid | Q34126326 | ||
A nucleotide change in the anticodon of anEscherichia coliserine transfer RNA results InsupD–amber suppression | Q35677215 | ||
Suppressors of lysine codons may be misacylated lysine tRNAs | Q36333142 | ||
Variations among glyV-derived glycine tRNA suppressors of glutamic acid codons | Q36420972 | ||
Compilation of tRNA sequences | Q40489929 | ||
UGA suppression by normal tRNA Trp in Escherichia coli: codon context effects | Q40495709 | ||
Coding properties of an ochre-suppressing derivative of Escherichia coli tRNAITyr | Q40782600 | ||
The influence of the reading context upon the suppression of nonsense codons | Q40783417 | ||
Context effects on nonsense codon suppression in Escherichia coli | Q40878163 | ||
An effect of codon context on the mistranslation of UGU codons in vitro. | Q41565245 | ||
Isolation and characterization of context mutations affecting the suppressibility of nonsense mutations | Q43562971 | ||
An ochre suppressor of bacteriophage T4 that is associated with a transfer RNA. | Q44669683 | ||
Effect of neighboring nucleotide sequences on suppression efficiency in amber mutants of T4 phage lysozyme | Q44966867 | ||
A mutation of the wobble nucleotide of a bacteriophage T4 transfer RNA | Q48417913 | ||
Context effects: Translation of UAG codon by suppressor tRNA is affected by the sequence following UAG in the message | Q50211961 | ||
Selection for new amino acids at position 211 of the tryptophan synthetase alpha chain of Escherichia coli. | Q53804145 | ||
The influence of codon context on genetic code translation | Q59068047 | ||
A functional requirement for modification of the wobble nucleotide in tha anticodon of a T4 suppressor tRNA | Q67496460 | ||
Restricted wobble in UGA codon recognition by glycine tRNA suppressors of UGG | Q70197879 | ||
Selection for new codons corresponding to position 234 of the tryptophan synthetase alpha chain of Escherichia coli | Q70276874 | ||
Missense and nonsense suppressors derived from a glycine tRNA by nucleotide insertion and deletion in vivo | Q70309830 | ||
Nucleotide substitution in the amino acid acceptor stem of lysine transfer RNA causes missense suppression | Q70315638 | ||
The influence of the reading context upon the suppression of nonsense codons | Q71279401 | ||
Adjacent effect on suppression efficiency. II. Study on ochre and amber mutants of T4 phage lysozyme | Q71594739 | ||
Effects of surrounding sequence on the suppression of nonsense codons | Q72695521 | ||
A system for measuring the frequencies of tandem and non-tandem double base substitutions induced by ultraviolet irradiation | Q72923986 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | messenger RNA | Q188928 |
structural biology | Q908902 | ||
Suppression, Genetic | Q71148826 | ||
P304 | page(s) | 19-27 | |
P577 | publication date | 1984-05-01 | |
1984-05-05 | |||
P1433 | published in | Journal of Molecular Biology | Q925779 |
P1476 | title | Codon context effects in missense suppression | |
P478 | volume | 175 |
Q47410812 | "Lost in translation: Seeing the forest by focusing on the trees". |
Q54596174 | A base substitution in the amino acid acceptor stem of tRNA(Lys) causes both misacylation and altered decoding. |
Q41082121 | A possible role for nonsense suppression in the synthesis of a human cytomegalovirus 58-kDa virion protein |
Q42107546 | An expanded genetic code in Candida albicans to study protein-protein interactions in vivo |
Q34285681 | Avoidance of long mononucleotide repeats in codon pair usage |
Q45843313 | Cloning of the gene for the capsid protein of potato leafroll virus |
Q38005747 | Codon context |
Q33307805 | Codon-triplet context unveils unique features of the Candida albicans protein coding genome |
Q24797417 | Comparative context analysis of codon pairs on an ORFeome scale |
Q41450922 | Constraints on codon context in Escherichia coli genes. Their possible role in modulating the efficiency of translation |
Q54725392 | Context specific misreading of phenylalanine codons. |
Q59810136 | Dissecting the Contribution of Release Factor Interactions to Amber Stop Codon Reassignment Efficiencies of the Orthogonal Pair |
Q36627949 | Effects of tRNA modification on translational accuracy depend on intrinsic codon-anticodon strength |
Q37055639 | Errors and alternatives in reading the universal genetic code. |
Q54777875 | Expression of peptide chain release factor 2 requires high-efficiency frameshift. |
Q33951834 | Frameshift suppression in aminoacyl-tRNA limited cells |
Q36903794 | Frameshift suppressor mutations outside the anticodon in yeast proline tRNAs containing an intervening sequence |
Q54773490 | Functional interactions in vivo between suppressor tRNA and mutationally altered ribosomal protein S4. |
Q21284253 | Gene Designer: a synthetic biology tool for constructing artificial DNA segments |
Q43206581 | In vivo misreading by tRNA overdose. |
Q36296982 | Influence of modification next to the anticodon in tRNA on codon context sensitivity of translational suppression and accuracy |
Q33297007 | Large scale comparative codon-pair context analysis unveils general rules that fine-tune evolution of mRNA primary structure. |
Q34001416 | Misreading of termination codons in eukaryotes by natural nonsense suppressor tRNAs |
Q33857615 | Nonrandom utilization of codon pairs in Escherichia coli |
Q54765335 | Nonsense suppression context effects in Escherichia coli bacteriophage T4. |
Q33929701 | Novel amber suppressor tRNAs of mammalian origin. |
Q30364667 | Optimizing scaleup yield for protein production: Computationally Optimized DNA Assembly (CODA) and Translation Engineering. |
Q33374620 | Preferred and avoided codon pairs in three domains of life |
Q24555808 | Queuosine modification of the wobble base in tRNAHis influences 'in vivo' decoding properties |
Q68468601 | Ribosomal frameshifting in the yeast retrotransposon Ty: tRNAs induce slippage on a 7 nucleotide minimal site |
Q40396315 | Selection of aminoacyl-tRNAs at sense codons: the size of the tRNA variable loop determines whether the immediate 3' nucleotide to the codon has a context effect |
Q34064720 | Species-specific codon context rules unveil non-neutrality effects of synonymous mutations |
Q39514050 | Stop making sense: or Regulation at the level of termination in eukaryotic protein synthesis |
Q38005748 | Suppression and the code: beyond codons and anticodons |
Q40407867 | Termination of translation in bacteria may be modulated via specific interaction between peptide chain release factor 2 and the last peptidyl-tRNA(Ser/Phe). |
Q40516556 | The effect of context on synonymous codon usage in genes with low codon usage bias |
Q35182045 | The effects of codon context on in vivo translation speed |
Q40046708 | The signal for translational readthrough of a UGA codon in Sindbis virus RNA involves a single cytidine residue immediately downstream of the termination codon |
Q27935419 | The yeast PNC1 longevity gene is up-regulated by mRNA mistranslation. |
Q37064483 | Transfer ribonucleic acid-mediated suppression of termination codons in Escherichia coli |
Q33861143 | tRNA-tRNA interactions within cellular ribosomes |
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