| scholarly article | Q13442814 |
| P356 | DOI | 10.1038/226817A0 |
| P953 | full work available at URL | http://www.nature.com/articles/226817a0 |
| http://www.nature.com/articles/226817a0.pdf | ||
| P698 | PubMed publication ID | 5444622 |
| P2093 | author name string | C. Woese | |
| P2860 | cites work | Bulletin de la Societe de chimie biologique | Q27710181 |
| N-FORMYL-METHIONYL-S-RNA | Q28156716 | ||
| Comparison of guanosine triphosphate split and polypeptide synthesis with a purified E. coli system | Q33802996 | ||
| Detailed molecular model for transfer ribonucleic acid | Q34232522 | ||
| Complementary Oligonucleotide Binding to the Anticodon Loop of fMet-transfer RNA | Q34233056 | ||
| Role of guanosine 5'-triphosphate in the initiation of Peptide synthesis, I. Synthesis of formylmethionyl-puromycin | Q35970669 | ||
| PHAGE f2 RNA-DIRECTED BINDING OF FORMYLMETHIONYL-TRNA TO RIBOSOMES AND THE ROLE OF 30S RIBOSOMAL SUBUNITS IN INITIATION OF PROTEIN SYNTHESIS | Q35976720 | ||
| Conformational differences between the biologically active and inactive forms of a transfer ribonucleic acid | Q36463732 | ||
| Demonstration of a guanosine triphosphate-dependent enzymatic binding of aminoacyl-ribonucleic acid to Escherichia coli ribosomes | Q36463978 | ||
| Genetic Code: Aspects of Organization | Q40035751 | ||
| Polypeptidyl-sigma-ribonucleic acid and amino-acyl-sigma-ribonucleic acid binding sites on ribosomes | Q44135267 | ||
| Translation and translocation of defined RNA messengers | Q47783915 | ||
| Binding of Formylmethionyl-tRNA to 30S Ribosomal Sub-units | Q47815333 | ||
| Origin of the Genetic Code | Q58981583 | ||
| Sequence Analysis of Specific Areas of the 16S and 23S Ribosomal RNAs | Q59029882 | ||
| Conformation of the Anticodon Loop in tRNA | Q59034824 | ||
| Arrangement of the Helical Regions in E. coli Tyrosine tRNA | Q59041391 | ||
| Coding properties of two conformations of tryptophanyl-tRNA in Escherichia coli | Q69889387 | ||
| Regulatory mechanisms and protein synthesis. X. Codon recognition on 30 S ribosomes | Q71208767 | ||
| Studies on polynucleotides. LXVII. Initiation of protein synthesis in vitro as studied by using ribopolynucleotides with repeating nucleotide sequences as messengers | Q71212010 | ||
| Catalysis of peptide bond formation by 50 s ribosomal subunits from Escherichia coli | Q71213755 | ||
| On the tertiary structure of transfer ribonucleic acid | Q77921221 | ||
| Polypeptide synthesis in Escherichia coli. II. The polypeptide chain and S-RNA | Q79488388 | ||
| Biosynthetic precursors of 30 S and 50 S ribosomal particles in Escherichia coli | Q93811846 | ||
| P433 | issue | 5248 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | chemical model | Q25109595 |
| P304 | page(s) | 817-820 | |
| P577 | publication date | 1970-05-01 | |
| 1970-05-30 | |||
| P1433 | published in | Nature | Q180445 |
| P1476 | title | Molecular mechanics of translation: a reciprocating ratchet mechanism | |
| Molecular Mechanics of Translation : a Reciprocating Ratchet Mechanism | |||
| P478 | volume | 226 |
| Q40954673 | A Study of the Thermal Unfolding of Escherichia coli Phenylalanine Transfer RNA by Chemical Modification at Elevated Temperatures |
| Q74043666 | A code in the protein coding genes |
| Q56905719 | A conformational rationale for the origin of the mechanism of nucleicacid-directed protein synthesis of 'living' organisms |
| Q37116592 | A gripping tale of ribosomal frameshifting: extragenic suppressors of frameshift mutations spotlight P-site realignment |
| Q47860499 | A model for the development of genetic translation |
| Q54245189 | A model for the tertiary structure of tRNA |
| Q24561954 | A new biology for a new century |
| Q40573215 | A novel conformational change of the anticodon region of tRNAPhe(yeast) |
| Q29619258 | A ratchet-like inter-subunit reorganization of the ribosome during translocation |
| Q33860893 | A speculation on the origin of protein synthesis |
| Q36192838 | A spin label study of the thermal unfolding of secondary and tertiary structure in E.coli transfer RNAs |
| Q37480505 | A translocation-associated ribosomal conformational change detected by hydrogen exchange and sedimentation velocity |
| Q35026380 | Aminoacyl-tRNA binding at the recognition site is the first step of the elongation cycle of protein synthesis |
| Q52388461 | Analytical expression of the purine/pyrimidine codon probability after and before random mutations. |
| Q35590185 | Anticodon-anticodon interaction induces conformational changes in tRNA: yeast tRNAAsp, a model for tRNA-mRNA recognition |
| Q37397615 | Base substitutions in the tRNA anticodon arm do not degrade the accuracy of reading frame maintenance |
| Q24634337 | Before enzymes and templates: theory of surface metabolism |
| Q69242794 | Binding of complementary pentanucleotides to the anticodon loop of transfer RNA |
| Q41250363 | Bisulfite-induced C changed to U transitions in yeast alanine tRNA |
| Q38358841 | Bisulfite-induced C changed to U transitions in yeast valine tRNA |
| Q31529984 | Calculation of the relative geometry of tRNAs in the ribosome from directed hydroxyl-radical probing data |
| Q40382945 | Chemical modification as a probe of conformational changes in transfer ribonucleic acid on aminoacylation |
| Q69943199 | Circular dichroism during deacylation of methionyl-tRNAfmet and formylmethionyl-tRNAfmet from E. coli |
| Q36948473 | Codon recognition during frameshift suppression in Saccharomyces cerevisiae |
| Q41700577 | Codon-anticodon interaction at the ribosomal peptidyl-site |
| Q36405137 | Comparison of the structures of free and ribosome-bound tRNAPhe by using slow tritium exchange |
| Q38362413 | Complementary oligonucleotide binding to transfer RNA |
| Q35109347 | Conformation of Charged and Uncharged tRNA Phe |
| Q39935623 | Conformational States of Transfer Ribonucleic Acids |
| Q37473683 | Conformational changes in ribosomes during protein synthesis |
| Q36463111 | Conformational dynamics of the anticodon loop in yeast tRNAPhe as sensed by the fluorescence of wybutine |
| Q39844036 | Constraints on the accuracy of messenger RNA movement |
| Q40462470 | Crosslinking transfer RNA and messenger RNA at the ribosomal decoding region: identification of the site of reaction on the messenger RNA. |
| Q27639298 | Cryo-EM reveals an active role for aminoacyl-tRNA in the accommodation process |
| Q27678850 | Crystal Structures of EF-G-Ribosome Complexes Trapped in Intermediate States of Translocation |
| Q33721806 | Detailed analysis of the higher-order structure of 16S-like ribosomal ribonucleic acids |
| Q40464282 | Effect of ribosome binding and translocation on the anticodon of tRNAPhe as studied by wybutine fluorescence. |
| Q47782054 | Emergence of template-and-sequence-directed (TSD) syntheses: I. A bio-geochemical model |
| Q37336205 | Evidence from ultraviolet absorbance measurements for a codon-induced conformational change in lysine tRNA from Escherichia coli |
| Q44466748 | Evolution of nucleic acid replication: the possible role of simple repeating sequence polypeptides therein |
| Q93754740 | Evolution of the genetic code |
| Q34809895 | Evolutionary conservation of reactions in translation |
| Q50216198 | Four-base codons ACCA, ACCU and ACCC are recognized by frameshift suppressor sufJ |
| Q43523835 | Frameshift Suppression: a Nucleotide Addition in the Anticodon of a Glycine Transfer RNA |
| Q41541869 | High resolution phosphorus NMR spectroscopy of transfer ribonucleic acids |
| Q54514224 | Hypothesis: emergence of translation as a result of RNA helicase evolution. |
| Q39913907 | Inhibitors of t-RNA O-Methyltransferase as Possible Antineoplastic Agents |
| Q67252391 | Intrinsic asymmetry of oligomer transitions and biomolecular evolution |
| Q40099410 | Ligand-Induced Conformational Changes in Ribonucleic Acids |
| Q36405022 | Mechanism of translocation: relative arrangement of tRNA and mRNA on the ribosome. |
| Q39772461 | Mechanisms in Polypeptide Chain Elongation on Ribosomes |
| Q35325592 | Method to determine the reading frame of a protein from the purine/pyrimidine genome sequence and its possible evolutionary justification |
| Q37568398 | Molecular model of ribosome frameshifting |
| Q40109097 | Nearest-Neighbor Effects in the Structure and Function of Nucleic Acids |
| Q37686206 | Nucleotide sequence of a yeast Ty element: evidence for an unusual mechanism of gene expression |
| Q45836311 | On the evolution of ribosomal RNA. |
| Q40393286 | On the origin of the genetic code |
| Q53714625 | Orientation of double-helical segments in crystals of yeast phenylalanine transfer RNA |
| Q34873903 | Orientations of transfer RNA in the ribosomal A and P sites |
| Q28776301 | Origin of the genetic code: a testable hypothesis based on tRNA structure, sequence, and kinetic proofreading |
| Q71760798 | Partial Nuclease Digestion of Transfer Ribonucleic Acids and Aminoacylated Transfer Ribonucleic Acids |
| Q41636028 | Periodic correlations in DNA sequences and evidence suggesting their evolutionary origin in a comma-less genetic code |
| Q67006935 | Perspectives on Thermodynamics and the Origin of Life |
| Q39703735 | Precursor-specific nucleotide sequences can govern RNA folding |
| Q39852801 | Prediction of pairing schemes in RNA molecules-loop contributions and energy of wobble and non-wobble pairs |
| Q28655007 | Primal eukaryogenesis: on the communal nature of precellular States, ancestral to modern life |
| Q70760547 | RNA Polymerase: a model for rotational translocation |
| Q38362073 | Recognition in Nucleic Acids and the Anticodon Families |
| Q28728225 | Rhizome of life, catastrophes, sequence exchanges, gene creations, and giant viruses: how microbial genomics challenges Darwin |
| Q21134742 | Ribosomal history reveals origins of modern protein synthesis |
| Q37944676 | Ribosome gymnastics--degree of difficulty 9.5, style 10.0. |
| Q46504581 | Ribosome structural dynamics in translocation: yet another functional role for ribosomal RNA. |
| Q33560382 | Secondary structure adventures with Carl Woese |
| Q69942469 | Selective reaction of methoxyamine with cytosine bases in tyrosine transfer ribonucleic acid |
| Q70571203 | Speculations on the evolution of the genetic code III: The evolution of t-RNA |
| Q36188883 | Stacking of Crick Wobble pair and Watson-Crick pair: stability rules of G-U pairs at ends of helical stems in tRNAs and the relation to codon-anticodon Wobble interaction |
| Q69241860 | Structural elements and organization of the ancestral translational machinery |
| Q34426043 | Structural insights into translational fidelity |
| Q36313969 | Structural variability of tRNA: small-angle x-ray scattering of the yeast tRNAphe-Escherichia coli tRNAGlu2 complex |
| Q34052506 | Structure of yeast phenylalanine tRNA at 3 Å resolution |
| Q54039746 | Tertiary structure and function of transfer-RNA |
| Q39935584 | The Elongation Reactions in Protein Synthesis |
| Q40090925 | The Fidelity of Translation |
| Q56672594 | The Hypercycle |
| Q35984354 | The concept of RNA-assisted protein folding: the role of tRNA. |
| Q46055178 | The ribosome moves: RNA mechanics and translocation |
| Q47601982 | The ribotype theory on the origin of life |
| Q47996121 | The rotating ribosome: A gross mechanical model for translation |
| Q59068997 | The transorientation hypothesis for codon recognition during protein synthesis |
| Q45840730 | The use of bonding between tRNAs to implement early peptide synthesis |
| Q70264341 | Topological arrangement of two transfer RNAs on the ribosome. Fluorescence energy transfer measurements between A and P site-bound tRNAphe |
| Q47857111 | Translation: Till termination us do part |
| Q34332282 | Translation: in retrospect and prospect |
| Q46547306 | You tell Carl that some of my best friends are Eukaryotes: Carl R. Woese (1928–2012). |
| Q72132640 | mRNA translocation in protein biosynthesis: association constants related to the translocation process |
| Q33861143 | tRNA-tRNA interactions within cellular ribosomes |
| Q77147873 | tRNAs in the spotlight during protein biosynthesis |
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