| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S0022-2836(61)80040-5 |
| P8608 | Fatcat ID | release_5njg5fvstjbznk5lp2gjkyzavi |
| P698 | PubMed publication ID | 13701659 |
| P2093 | author name string | E FREESE | |
| E BAUTZ | |||
| E BAUTZ-FREESE | |||
| P2860 | cites work | THE DIFFERENCE BETWEEN SPONTANEOUS AND BASE-ANALOGUE INDUCED MUTATIONS OF PHAGE T4 | Q22066239 |
| Reactivation of Irradiated Bacteriophage by Transfer of Self-Reproducing Units | Q33749275 | ||
| INDUCTION OF SPECIFIC MUTATIONS WITH 5-BROMOURACIL. | Q33994694 | ||
| Inactivation of virus nucleic acid with glyoxal derivatives | Q34245601 | ||
| MUTATIONAL HETEROZYGOTES IN BACTERIOPHAGES. | Q36430349 | ||
| Mutual exclusion between an infecting phage and a carried phage | Q40757008 | ||
| Inactivation of some Animal Viruses by Hydroxylamine and the Structure of Ribonucleic Acid | Q58960502 | ||
| The reactions of the radiomimetic alkylating agents with macromolecules in vitro | Q78544327 | ||
| P304 | page(s) | 133-143 | |
| P577 | publication date | 1961-04-01 | |
| P1433 | published in | Journal of Molecular Biology | Q925779 |
| P1476 | title | Hydroxylamine as a mutagenic and inactivating agent | |
| P478 | volume | 3 |
| Q59145338 | A Gene synthesizing Deoxyribonuclease in the Polyhedral Pre-viral Genome |
| Q69991117 | A genetic study of temperature-sensitive mutants of the Subtilis phage SP82 |
| Q44247716 | A note on the elementary theory of mutant clone-size distribution in the progeny of phages treated extracellularly with a mutagen |
| Q47974890 | A polarity gradient in the expression of the replicase gene of rna bacteriophage Qβ |
| Q44540995 | Amber mutants of Salmonella phages P22 |
| Q71201638 | An alteration of the DNA isolated from Escherichia coli treated with hydroxylamine |
| Q42588906 | Analysis of bases of rat-liver nucleic acids after administration of the carcinogen dimethylnitrosamine |
| Q36130901 | Analysis of the Escherichia coli nusA10(Cs) allele: relating nucleotide changes to phenotypes |
| Q37606736 | Bacterial and phage mutations that reveal helix-unwinding activities required for bacteriophage T4 DNA replication |
| Q36569067 | Bacteriophage T4 baseplate components. III. Location and properties of the bacteriophage structural thymidylate synthetase |
| Q37141275 | Bacteriophage tail components. II. Dihydrofolate reductase in T4D bacteriophage. |
| Q59063370 | Base Composition of Nonsense Condons in E. coli: Evidence from Amino-Acid Substitutions at a Tryptophan Site in Alkaline Phosphatase |
| Q70951310 | Base specific chemicals and mutation analysis in Lycopersicon |
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| Q87108678 | Effects of hydroxylamine and N-Methyl-N'-Nitro-N-nitrosoguanidine in Mimulus cardinalis (Scrophulariaceae): Survival curves and dominant mutants |
| Q49017662 | Ernst Freese (1925–1990) |
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| Q35941058 | History of the science of mutagenesis from a personal perspective |
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| Q40256054 | Hydroxylamine mutagenesis of HSV DNA and DNA fragments: Introduction of mutations into selected regions of the viral genome |
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| Q43566289 | IDENTIFICATION OF THE ALTERED BASES IN MUTATED SINGLE-STRANDED DNA. I. IN VITRO MUTAGENESIS BY HYDROXYLAMINE, ETHYL METHANESULFONATE AND NITROUS ACID. |
| Q42791830 | Inactivated smallpox vaccine. A comparison of inactivation methods |
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| Q33983586 | Induction of pure mutant clones by repair of inactivating DNA alterations in phage t4. |
| Q72295099 | Inhibition of leucyl-RNA synthetase by periodate-oxidized transfer RNA modified by hydroxylamine |
| Q45820712 | Investigations of the attenuation induced in foot-and-mouth disease virus by a chemical mutagen |
| Q35613440 | Isolation of ras GTP-binding mutants using an in situ colony-binding assay |
| Q78530948 | MECHANISM OF THE MUTAGENIC ACTION OF HYDROXYLAMINE |
| Q43796535 | MUTAGENIC ACTION OF HYPONITROUS ACID AND GLUCOSE OXIME. |
| Q53961472 | Mechanism of degradation of 2'-deoxycytidine by formamide: implications for chemical DNA sequencing procedures. |
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| Q71242246 | Method for the measurement of hydroxylamine in colonic fluid using derivatisation and gas chromatography |
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| Q40129538 | Novel segregation patterns of infecting-mutant genotypes in plate complementation tests among amber mutants of bacteriophage BF23. |
| Q72231112 | On the mechanism of mutagenic action of hydroxylamine |
| Q40118928 | Prions: Novel Infectious Pathogens |
| Q37169591 | Prophage Induction in Lysogenic Escherichia coli with Simple Hydroxylamine and Hydrazine Compounds |
| Q71099151 | Repair Processes in Hydroxylamine-inactivated Phage |
| Q36394442 | Reversal of mutant phenotypes by 5-fluorouracil: an approach to nucleotide sequences in messenger-RNA. |
| Q78508819 | SYNTHETIC MECHANISMS IN THE AXON. II. RNA IN MYELIN-FREE AXONS OF THE CAT |
| Q68376094 | Similar cytological effects of hydroxylamine and 5-FUDR, agents with different modes of action. An analysis of chromosome breakage |
| Q58994935 | Specific Partial Hydrolysis of Nucleic Acids in Nucleotide Sequence Studies |
| Q36400249 | THYMIDINE-REQUIRING MUTANTS OF PHAGE T4 |
| Q34416801 | TWO SEPARABLE EFFECTS OF HYDROXYLAMINE ON TRANSFORMING DNA |
| Q39977533 | The Chemical Basis of Mutation |
| Q54585835 | The Effect of Some Nucleic Acid-binding Metabolic Inhibitors on Split-dose Sparing in U.V.- and Electron-irradiated Diploid Yeast |
| Q71119597 | The Inactivating Effect of Hydroxylamine onE. ColiPhages and the Possibility of Repair of the Resultant Damage |
| Q39078529 | The Mechanism of the Mutagenic Action of Hydroxylamines |
| Q39979824 | The Role of Conformation in Chemical Mutagenesis |
| Q35096469 | The bacteriophage T4 rapid-lysis genes and their mutational proclivities. |
| Q52427217 | The delayed mutagenic action of hydroxylamine in drosophila |
| Q72635033 | The effects of hydroxylamine on polynucleotide templates for RNA polymerase |
| Q42971191 | The h region of bacteriophage T2H, with special reference to an anomalous mutant |
| Q43582565 | The inactivation ofEscherichia coli bacteriophages of T series by hydroxylamine and UV radiation |
| Q72353280 | The mechanism of the reaction of hydroxylamine and o-methylhydroxylamine with cytidine |
| Q44530816 | The mutagenic effect of hydroxylamine onMycobacterium phlei strain PA |
| Q53834786 | The mutagenic specificity of sodium bisulfite |
| Q71203531 | The oxygen-dependent reaction of hydroxylamine with nucleotides and DNA |
| Q79358205 | The reaction of hydroxylamine with cytosine and related compounds |
| Q78959761 | The reaction of hydroxylamine with ribonucleic acid |
| Q44084302 | The reaction of tobacco mosaic virus ribonucleic acid with hydroxylamine |
| Q72433719 | Why does DNA contain thymine and RNA uracil? |
| Q76656878 | [AN UNUSUAL DOSAGE-EFFECT RELATION IN N-NITROSO-N-METHYLACETAMIDE INDUCED MUTATION RATES IN SACCHAROMYCES CEREVISIAE] |
| Q53783843 | [Crossing-and mutation genetical studies on clear plate mutants of the Serratia phage KAPPA]. |
| Q71884302 | [Formation of oligonucleotides as a biochemically recognizable index of the beginning of budding in Saccharomyces cerevisiae] |
| Q78959637 | [Nucleic acids as the basis of genetic continuity] |
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