Published in Nature on May 03, 1969
Nucleotide sequence at the binding site for coat protein on RNA of bacteriophage R17. Proc Natl Acad Sci U S A (1972) 2.38
Bacteriophage T4 regA protein binds to mRNAs and prevents translation initiation. Proc Natl Acad Sci U S A (1987) 1.79
Translation of the genome of a ribonucleic acid bacteriophage. Bacteriol Rev (1972) 1.40
The bacteriophage T4 regA gene: primary sequence of a translational repressor. Nucleic Acids Res (1984) 1.19
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Specificity of formation of complexes between coat protein and bacteriophage f2 RNA. J Virol (1973) 0.85
Template activity of complexes formed between bacteriophage f2 RNA and coat protein. J Virol (1975) 0.78
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Hexamer of bacteriophage f2 coat protein as a repressor of bacteriophage RNA polymerase synthesis. J Virol (1975) 0.75
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Primary structure of the Saccharomyces cerevisiae GAL4 gene. Mol Cell Biol (1984) 5.49
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In vitro synthesis of bacteriophage lysozyme. Nature (1967) 4.71
Direct repeats flank three small nuclear RNA pseudogenes in the human genome. Cell (1981) 4.53
Mapping of late adenovirus genes by cell-free translation of RNA selected by hybridization to specific DNA fragments. Proc Natl Acad Sci U S A (1975) 4.35
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The genes sup-7 X and sup-5 III of C. elegans suppress amber nonsense mutations via altered transfer RNA. Cell (1983) 3.26
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Point mutations in the proximal Cys-His box of Rous sarcoma virus nucleocapsid protein. J Virol (1990) 2.93
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Normal tRNAs promote ribosomal frameshifting. Cell (1979) 2.41
Evidence that a downstream pseudoknot is required for translational read-through of the Moloney murine leukemia virus gag stop codon. Proc Natl Acad Sci U S A (1991) 2.39
Role of the gag polyprotein precursor in packaging and maturation of Rous sarcoma virus genomic RNA. J Virol (1990) 2.39
Nucleotide sequence at the binding site for coat protein on RNA of bacteriophage R17. Proc Natl Acad Sci U S A (1972) 2.38
Pattern of protein synthesis in monkey cells infected by simian virus 40. J Virol (1972) 2.35
Unfolding of Escherichia coli ribosomes by removal of magnesium. J Mol Biol (1966) 2.34
Characterization of polypeptides made in vitro from bacteriophage lambda DNA. J Mol Biol (1973) 2.29
The signal for a leaky UAG stop codon in several plant viruses includes the two downstream codons. J Mol Biol (1991) 2.29
Yeast suppressors of UAA and UAG nonsense codons work efficiently in vitro via tRNA. Cell (1976) 2.16
Probing the structure of the Escherichia coli 10Sa RNA (tmRNA). RNA (1997) 2.15
Analysis of leaky viral translation termination codons in vivo by transient expression of improved beta-glucuronidase vectors. Plant Mol Biol (1990) 2.15
Structure-function relationship of Rous sarcoma virus leader RNA. Nucleic Acids Res (1982) 2.08
Sequence specificity of aminoglycoside-induced stop condon readthrough: potential implications for treatment of Duchenne muscular dystrophy. Ann Neurol (2000) 2.01
Binding sites of viral protein P19 onto Rous sarcoma virus RNA and possible controls of viral functions. J Mol Biol (1982) 2.00
Enhanced differential synthesis of proteins in a mammalian cell-free system by addition of polyamines. J Biol Chem (1975) 1.93
Recruitment in the Cooperative Study of Sickle Cell Disease (CSSCD). Control Clin Trials (1987) 1.93
Specificity of Rous sarcoma virus nucleocapsid protein in genomic RNA packaging. J Virol (1992) 1.92
Studies on the secondary structure of single-stranded RNA from the bacteriophage MS2. II Analysis of the RNase IV cleavage products. J Mol Biol (1977) 1.89
In vitro suppression of UAG and UGA mutants in the thymidine kinase gene of herpes simplex virus. Proc Natl Acad Sci U S A (1979) 1.88
rRNA-mRNA base pairing stimulates a programmed -1 ribosomal frameshift. J Bacteriol (1994) 1.88
Ribosomal frameshifting from -2 to +50 nucleotides. Prog Nucleic Acid Res Mol Biol (1990) 1.88
Transcriptional slippage occurs during elongation at runs of adenine or thymine in Escherichia coli. Nucleic Acids Res (1990) 1.87
In vitro, the major ribosome binding site on Rous sarcoma virus RNA does not contain the nucleotide sequence coding for the N-terminal amino acids of the gag gene product. J Virol (1979) 1.71
Effect of rearrangements and duplications of the Cys-His motifs of Rous sarcoma virus nucleocapsid protein. J Virol (1993) 1.65
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Towards a genetic dissection of the basis of triplet decoding, and its natural subversion: programmed reading frame shifts and hops. Annu Rev Genet (1991) 1.62
Structural probing and mutagenic analysis of the stem-loop required for Escherichia coli dnaX ribosomal frameshifting: programmed efficiency of 50%. J Mol Biol (1997) 1.61
Characterization of the prosome from Drosophila and its similarity to the cytoplasmic structures formed by the low molecular weight heat-shock proteins. EMBO J (1985) 1.59
Presence and location of modified nucleotides in Escherichia coli tmRNA: structural mimicry with tRNA acceptor branches. EMBO J (1998) 1.56
The twenty-first amino acid. Nature (2000) 1.54
Nonlinearity in genetic decoding: homologous DNA replicase genes use alternatives of transcriptional slippage or translational frameshifting. Proc Natl Acad Sci U S A (2000) 1.53
Thermodynamic criteria for high hit rate antisense oligonucleotide design. Nucleic Acids Res (2003) 1.52
Extensive in vitro transcription of rous sarcoma virus RNA by avian myeloblastosis virus DNA polymerase and concurrent activation of the associated RNase H. J Virol (1977) 1.52
Thermodynamic calculations and statistical correlations for oligo-probes design. Nucleic Acids Res (2003) 1.49
tRNA hopping: enhancement by an expanded anticodon. EMBO J (1989) 1.47
The origin and destiny of adenovirus proteins. Cold Spring Harb Symp Quant Biol (1975) 1.46
Identification of two proteins encoded by the Saccharomyces cerevisiae GAL4 gene. Mol Cell Biol (1984) 1.45
Role of the open reading frames of Rous sarcoma virus leader RNA in translation and genome packaging. EMBO J (1992) 1.44
Characterization of the gene and messenger RNA of the large subunit of ribulose 1,5-diphosphate carboxylase in Chlamydomonas reinhardii. J Mol Biol (1979) 1.44
Visual acuity loss in patients with Stargardt's macular dystrophy. Ophthalmology (1987) 1.41
Reading two bases twice: mammalian antizyme frameshifting in yeast. EMBO J (1996) 1.41
Binding sites of ribosomal proteins on two specific fragments derived from Escherichia coli 50 S ribosomes. Eur J Biochem (1971) 1.40
Eubacterial tmRNAs: everywhere except the alpha-proteobacteria? Biochim Biophys Acta (1999) 1.39
Functional and structural analysis of a pseudoknot upstream of the tag-encoded sequence in E. coli tmRNA. J Mol Biol (1999) 1.38
Sequence of 51 nucleotides at the 3'-end of R17 bacteriophage RNA. J Mol Biol (1972) 1.38
Characterization of small nuclear RNA U1 gene candidates and pseudogenes from the human genome. J Mol Appl Genet (1981) 1.38
Class of promotor sites for Escherichia coli DNA-dependent RNA polymerase. Nature (1974) 1.36
Identification of amber and ochre mutants of the human virus Ad2+ND1. Proc Natl Acad Sci U S A (1977) 1.36
Gene order in the bacteriophage R17 RNA: 5'-a protein-coat protein-synthetase-3'. Nature (1970) 1.34
A second mammalian antizyme: conservation of programmed ribosomal frameshifting. Genomics (1998) 1.30
New procedure for the direct analysis of in vitro reverse transcription of Rous sarcoma virus RNA. J Virol (1977) 1.29
Discovery of a spermatogenesis stage-specific ornithine decarboxylase antizyme: antizyme 3. Proc Natl Acad Sci U S A (2000) 1.28
High spontaneous mutation rate of Rous sarcoma virus demonstrated by direct sequencing of the RNA genome. Nucleic Acids Res (1983) 1.27
A rapid in vitro method for obtaining RNA accessibility patterns for complementary DNA probes: correlation with an intracellular pattern and known RNA structures. Nucleic Acids Res (1997) 1.26
A case for trans translation. Nature (1996) 1.25
The first and third uORFs in RSV leader RNA are efficiently translated: implications for translational regulation and viral RNA packaging. Nucleic Acids Res (1995) 1.25
The Drosophila gene for antizyme requires ribosomal frameshifting for expression and contains an intronic gene for snRNP Sm D3 on the opposite strand. Mol Cell Biol (1998) 1.25
Antizyme expression: a subversion of triplet decoding, which is remarkably conserved by evolution, is a sensor for an autoregulatory circuit. Nucleic Acids Res (2000) 1.25
RECODE: a database of frameshifting, bypassing and codon redefinition utilized for gene expression. Nucleic Acids Res (2001) 1.24
Functional tRNAs with altered 3' ends. EMBO J (1993) 1.24
Synthesis of bacteriophage lambda proteins in vitro. Nat New Biol (1972) 1.23
Pseudoknot-dependent read-through of retroviral gag termination codons: importance of sequences in the spacer and loop 2. EMBO J (1994) 1.23
Identification of sequence motifs in oligonucleotides whose presence is correlated with antisense activity. Nucleic Acids Res (2000) 1.22
Analysis of the roles of tRNA structure, ribosomal protein L9, and the bacteriophage T4 gene 60 bypassing signals during ribosome slippage on mRNA. J Mol Biol (2001) 1.22
Conservation of polyamine regulation by translational frameshifting from yeast to mammals. EMBO J (2000) 1.21
Frameshifting in gene 10 of bacteriophage T7. J Bacteriol (1991) 1.21
An analysis of sequences stimulating frameshifting in the decoding of gene 10 of bacteriophage T7. Nucleic Acids Res (1991) 1.20
Analysis of Rous sarcoma virus (RSV) RNA structure by means of specific nucleases. Virology (1978) 1.20
Nucleotide sequence from the 5' end to the first cistron of R17 bacteriophage ribonucleic acid. Biochemistry (1972) 1.19
Utilization of selenocysteyl-tRNA[Ser]Sec and seryl-tRNA[Ser]Sec in protein synthesis. J Biol Chem (1994) 1.17
Cell-free synthesis of herpes simplex virus proteins. J Virol (1977) 1.16
Folding of an mRNA pseudoknot required for stop codon readthrough: effects of mono- and divalent ions on stability. Biochemistry (1997) 1.13
Simian virus 40-specific polypeptides in AD2+ ND1- and Ad2+ ND4-infected cells. J Virol (1976) 1.13
Translation of bacteriophage R17 and Qbeta RNA in a mammalian cell-free system. J Mol Biol (1973) 1.12
An efficient Shine-Dalgarno sequence but not translation is necessary for lacZ mRNA stability in Escherichia coli. J Bacteriol (1994) 1.12