THE INTRACELLULAR FATE OF RABBITPOX VIRUS RENDERED NONINFECTIOUS BY VARIOUS REAGENTS.
暂无分享,去创建一个
[1] W. Joklik. THE INTRACELLULAR UNCOATING OF POXVIRUS DNA. II. THE MOLECULAR BASIS OF THE UNCOATING PROCESS. , 1964, Journal of molecular biology.
[2] W. Joklik. THE INTRACELLULAR UNCOATING OF POXVIRUS DNA. I. THE FATE OF RADIOACTIVELY-LABELED RABBITPOX VIRUS. , 1964, Journal of molecular biology.
[3] R. Zito,et al. MODIFICATION OF HISTIDINE BY ULTRAVIOLET IRRADIATION OF LYSOZYME. , 1963, The Journal of biological chemistry.
[4] S. Dales. THE UPTAKE AND DEVELOPMENT OF VACCINIA VIRUS IN STRAIN L CELLS FOLLOWED WITH LABELED VIRAL DEOXYRIBONUCLEIC ACID , 1963, The Journal of cell biology.
[5] D. Sharp,et al. HOMOLOGOUS INHIBITION, TOXICITY, AND MULTIPLICITY REACTIVATION WITH ULTRAVIOLET-IRRADIATED VACCINIA VIRUS , 1963, Journal of bacteriology.
[6] B. Mcauslan. Control of induced thymidine kinase activity in the poxvirus-infected cell , 1963 .
[7] D. Sharp,et al. Homologous inhibition with heated and ultraviolet-treated vaccinia virus in cultures of L cells. , 1963, Virology.
[8] C. I. Davern,et al. The effect of 5-bromodeoxyuridine on the multiplication of vaccinia virus , 1963 .
[9] W. Joklik. Reactivation of Poxviruses: Fate of Reactivable Virus Within the Cell , 1962, Nature.
[10] T. Árnason,et al. Mutagenic Effectiveness of Ethyl Methanesulphonate and Methyl Methanesulphonate in Barley , 1962, Nature.
[11] G. Streisinger,et al. THE MECHANISM OF 5-BROMOURACIL MUTAGENESIS IN THE BACTERIOPHAGE T4 , 1962 .
[12] W. Joklik. The preparation and characteristics of highly purified radioactively labelled poxvirus. , 1962, Biochimica et biophysica acta.
[13] P. Abel. Multiplicity reactivation and marker rescue with vaccinia virus. , 1962, Virology.
[14] M. Simon,et al. The photodynamic reaction of methylene blue with deoxyribonucleic acid. , 1962, Journal of molecular biology.
[15] P. D. Lawley,et al. Ionization of DNA bases or base analogues as a possible explanation of mutagenesis, with special reference to 5-bromodeoxyuridine. , 1962, Journal of molecular biology.
[16] W. Joklik. The Multiplication of Poxvirus DNA , 1962 .
[17] H. Hanafusa. Factors involved in the initiation of multiplication of vaccinia virus. , 1962, Cold Spring Harbor symposia on quantitative biology.
[18] J. Melnick,et al. The incorporation of neutral red and acridine orange into developing poliovirus particles making them photosensitive. , 1961, Virology.
[19] E. Geiduschek,et al. Damage by visible light to the acridine orange--DNA complex. , 1961, Biophysical journal.
[20] A. Paiva,et al. The photo-oxidative inactivation of angiotensinamide , 1961 .
[21] W. Joklik,et al. Reactivation of Poxviruses by a Non-Genetic Mechanism , 1960, Nature.
[22] F. Fenner,et al. The reactivation of poxviruses. I. Demonstration of the phenomenon and techniques of assay. , 1960, Virology.
[23] W. Joklik,et al. The reactivation of poxviruses. III. Properties of reactivable particles. , 1960, Virology.
[24] L. Gl. The D to C change in poliovirus particles. , 1959 .
[25] H. Eagle,et al. Amino acid metabolism in mammalian cell cultures. , 1959, Science.
[26] B. Roizman,et al. Immunochemical studies of poliovirus. IV. Alteration of the immunologic specificity of purified poliomyelitis virus by heat and ultraviolet light. , 1959, Journal of immunology.
[27] F. Fenner,et al. The biological characters of several strains of vaccinia, cowpox and rabbitpox viruses. , 1958, Virology.
[28] A. Loveless. Increased Rate of Plaque-type and Host-range Mutation following Treatment of Bacteriophage in vitro with Ethyl Methane Sulphonate , 1958, Nature.
[29] E. Boulter,et al. The titration of vaccinia virus on the chorio-allantoic membrane of the developing chick embryo , 1957, Journal of Hygiene.