review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.1007/BF01936923 |
P698 | PubMed publication ID | 2253711 |
P2093 | author name string | E J Murgola | |
P2860 | cites work | Molecular Structure of Nucleic Acids: A Structure for Deoxyribose Nucleic Acid | Q1895685 |
The 3'-terminal sequence of Escherichia coli 16S ribosomal RNA: complementarity to nonsense triplets and ribosome binding sites | Q29618224 | ||
Mutant 16S ribosomal RNA: a codon-specific translational suppressor | Q33580166 | ||
Codon choice and gene expression: synonymous codons differ in their ability to direct aminoacylated-transfer RNA binding to ribosomes in vitro | Q33580694 | ||
tRNA-tRNA interactions within cellular ribosomes | Q33861143 | ||
A novel type of + 1 frameshift suppressor: a base substitution in the anticodon stem of a yeast mitochondrial serine-tRNA causes frameshift suppression. | Q33918036 | ||
Mutants of elongation factor Tu promote ribosomal frameshifting and nonsense readthrough. | Q33930174 | ||
How many EF-Tu molecules participate in aminoacyl-tRNA binding and peptide bond formation in Escherichia coli translation? | Q33973403 | ||
Interaction of elongation factors EF-G and EF-Tu with a conserved loop in 23S RNA. | Q34039940 | ||
Codon--anticodon pairing: the wobble hypothesis | Q34054457 | ||
Codon and amino-acid specificities of a transfer RNA are both converted by a single post-transcriptional modification | Q34164307 | ||
Mutations in a new chromosomal gene of Escherichia coli K-12, pcnB, reduce plasmid copy number of pBR322 and its derivatives. | Q54773863 | ||
The second genetic code | Q56772349 | ||
Relaxation of a transfer RNA specificity by removal of modified nucleotides | Q59058337 | ||
A simple structural feature is a major determinant of the identity of a transfer RNA | Q59068931 | ||
Mutant EF-Tu increases missense error in vitro | Q61066604 | ||
Structure of ribosome-bound messenger RNA as revealed by enzymatic accessibility studies | Q69813375 | ||
Ribosomal mutations affecting efficiency of amber suppression | Q69900948 | ||
Tryptophan transfer RNA as the UGA suppressor | Q69938783 | ||
Nucleotide substitution in the amino acid acceptor stem of lysine transfer RNA causes missense suppression | Q70315638 | ||
Codon context effects in missense suppression | Q70356491 | ||
Translational efficiency of transfer RNA's: uses of an extended anticodon | Q71449240 | ||
Codon recognition by glycine transfer RNAs of Escherichia coli in vivo | Q72616503 | ||
The effects of mutation on the composition and properties of the A protein of Escherichia coli tryptohan synthetase | Q76425667 | ||
Glycine tRNA mutants with normal anticodon loop size cause -1 frameshifting | Q34312850 | ||
Suppressor gene alteration of protein primary structure | Q34427025 | ||
Identification of a novel translation factor necessary for the incorporation of selenocysteine into protein | Q34443439 | ||
Elongation Factors EF Tu and EF G Interact at Related Sites on Ribosomes | Q34695714 | ||
Heterogeneities in vertebrate tRNAs(Trp) avian retroviruses package only as a primer the tRNA(Trp) lacking modified m2G in position 7 | Q35828492 | ||
Genetics and sequence analysis of the pcnB locus, an Escherichia coli gene involved in plasmid copy number control | Q36174762 | ||
Suppressors of lysine codons may be misacylated lysine tRNAs | Q36333142 | ||
Nucleotide insertion in the anticodon loop of a glycine transfer RNA causes missense suppression | Q36382206 | ||
Errors and alternatives in reading the universal genetic code. | Q37055639 | ||
Transfer ribonucleic acid-mediated suppression of termination codons in Escherichia coli | Q37064483 | ||
Anticodon shift in tRNA: a novel mechanism in missense and nonsense suppression | Q37345559 | ||
Allosteric mechanism for codon-dependent tRNA selection on ribosomes | Q37458455 | ||
tRNA, suppression, and the code | Q38156962 | ||
Recent excitement in understanding transfer RNA identity | Q38189029 | ||
Identification of a selenocysteyl-tRNA(Ser) in mammalian cells that recognizes the nonsense codon, UGA. | Q38225172 | ||
A detailed model of the three-dimensional structure of Escherichia coli 16 S ribosomal RNA in situ in the 30 S subunit | Q38347966 | ||
The functional role of ribosomal RNA in protein synthesis | Q38630834 | ||
tRNA identity | Q38686661 | ||
tRNA identity: a hair of the dogma that bit us. | Q39540845 | ||
The function, structure and regulation of E. coli peptide chain release factors | Q39601517 | ||
Transfer RNA modification | Q39664935 | ||
Natural variation in the genetic code | Q39696778 | ||
Constraints on the accuracy of messenger RNA movement | Q39844036 | ||
Optimization of translation accuracy | Q40202065 | ||
Assembly of the mitochondrial membrane system: sequences of yeast mitochondrial valine and an unusual threonine tRNA gene | Q41130245 | ||
Mutants of the elongation factor EF-Tu, a new class of nonsense suppressors | Q41389897 | ||
Does codon composition influence ribosome function? | Q41560374 | ||
The Shine and Dalgarno hypothesis for termination: the 3' terminus of the 16S rRNA of the Escherichia coli ribosome can be modified or base-paired with a complementary oligonucleotide without affecting termination in vitro. | Q41566461 | ||
Shielding of the D loop of ribosome-bound tRNA by elongation factor G. | Q43412025 | ||
Interaction of tRNA with 23S rRNA in the ribosomal A, P, and E sites | Q43666149 | ||
Intermediate states in the movement of transfer RNA in the ribosome | Q44026748 | ||
Template Activity of Modified Terminator Codons | Q44581712 | ||
Structural basis for misaminoacylation by mutant E. coli glutaminyl-tRNA synthetase enzymes | Q46400542 | ||
Binding of tRNA to the ribosomal A and P sites protects two distinct sets of nucleotides in 16 S rRNA. | Q46428807 | ||
An historical account of protein synthesis, with current overtones--a personalized view | Q47777081 | ||
Mutant forms of tufA and tufB independently suppress nonsense mutations | Q50200378 | ||
Actions of the anticodon arm in translation on the phenotypes of RNA mutants. | Q52428816 | ||
Ribosomal discrimination of tRNAs. | Q54663593 | ||
Protein synthesis. Elongation remodelled. | Q54722560 | ||
Occurrence in vivo of selenocysteyl-tRNA(SERUCA) in Escherichia coli. Effect of sel mutations. | Q54728711 | ||
Missense and nonsense suppressors can correct frameshift mutations. | Q54729660 | ||
Changing the identity of a tRNA by introducing a G-U wobble pair near the 3' acceptor end. | Q54748656 | ||
P433 | issue | 11-12 | |
P304 | page(s) | 1134-1141 | |
P577 | publication date | 1990-12-01 | |
P1433 | published in | Experientia | Q21385347 |
P1476 | title | Suppression and the code: beyond codons and anticodons | |
P478 | volume | 46 |
Q40170178 | An aroD Ochre Mutation Results in a Staphylococcus aureus Small Colony Variant That Can Undergo Phenotypic Switching via Two Alternative Mechanisms |
Q44360856 | Codon-anticodon pairing. A model for interacting codon-anticodon duplexes located at the ribosomal A- and P-sites |
Q33975049 | Decoding the genome: a modified view |
Q35555486 | Experimental studies on the origin of the genetic code and the process of protein synthesis: a review update |
Q42155039 | Nucleotide sequence and gene organization of the starfish Asterina pectinifera mitochondrial genome |
Q30364667 | Optimizing scaleup yield for protein production: Computationally Optimized DNA Assembly (CODA) and Translation Engineering. |
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