Rejoining of X-ray Induced Breaks in the DNA of Leukaemia Cells
about
Repair replication in HeLa cells after large doses of x-irradiation.UV-induced alkaline labile DNA damage in human adenovirus and its repair after infection of human cells.The molecular genetics of the incision step in the DNA excision repair process.Biological significance of end points.Inducible repair systems and their implications for toxicology.Effects of oxygen during gamma-irradiation of Micrococcus radiodurans.DNA single-strand break repair in cultured insect and mammalian cells after X-irradiation.Effect of ultraviolet light on the sedimentation properties of two cell-lines with different sensitivity to U.V.The in vitro effect of Viscum album (VA) extract on DNA repair of peripheral blood mononuclear cells (PBMC) in cancer patients.The effect of oxygen on DNA single-strand breaks produced by ionizing radiation in mammalian cells.Radiation-induced lethality and DNA strand breakage: the relevance of the oxygen effect.DNA repair in ultraviolet light irradiated HeLa cells and its reversible inhibition by hydroxyurea.Recovery from inhibition by radiation of transcriptionally controlled enzyme induction: a possible probe for DNA repair.Protection against ionizing radiation at the cellular level, assessed by various parameters.The influence of radiation quality and oxygen on strand breakage in dry DNA.Toxicity of tritiated thymidine in P388F lymphoma cells. II. Effects of DNA molecular weight.Artefact in the measurement of the molecular weight of pulse labelled DNA.Enhancement of viral transformation by ultra-violet light.The radiation response of a long-term culture of human lymphoid cells. I. Asynchronous populations.Radiation-induced strand breakage in mammalian cell DNA. I. Enhancement of single-strand breaks by chemical radiosensitizers.Alpha-ray induced breaks in the DNA of Escherichia coli.Sedimentation properties of mammalian-cell DNA: evidence that non-specific molecular aggregation does not occur during cell lysis.DNA Strand Breakage in Cells irradiated with X-rays
P2860
Q38528296-34C8269C-B2CB-464B-AD44-5052369406F0Q39162035-FCA43547-6CE3-4D2C-805F-2BAA511D6294Q39469689-DFD73987-8BE2-48EB-BD9E-A90DB69B3D8BQ40155135-92ABBCE4-95E0-4FD2-A0F3-D31573715A86Q40316233-6197303A-BC1B-491E-BF36-426272158F7FQ40662200-D490ED98-6C96-4218-A76F-CB044E42F04EQ40712025-59709E73-3412-4599-B94F-F27BD4B7DA79Q43420048-767F708E-38AB-46BC-8B91-6803BBC87508Q43947555-B1F5392E-1E4F-4E67-AC2C-15627AC8B9B5Q44098686-A51FCB3C-2F4C-4C1F-8E44-EC117BD275AFQ44254670-62344F24-BCAB-4AE7-BA9E-4160B9E53DB9Q44400693-AD2DD88B-E461-4C5B-B8CF-227AB40D515DQ44673860-8A04E022-8AF2-4B8F-87CB-DECF49ED54A7Q45052252-31C60B7F-4A99-4EFB-8593-E55B0513CC9EQ45228277-77F9A9C1-6DA5-4C74-940B-03FBA748F2DEQ47384662-F0D652CD-446B-48AF-B9AB-C8DD908D1214Q47396691-F1320337-16F1-4E7A-94E0-649A93FCB677Q53608041-6B30FE11-5735-42E9-A1F3-3F0FA35D2341Q53722207-AE4BC10C-9E7B-46CA-9045-EF2E8DF41D4DQ54475700-B3B8CA3D-D6F6-4D58-AE0C-FC357D0B8ADDQ54485449-643B951A-357F-4C13-AEB4-C5D48CC05B81Q54650122-DA64AF25-2F46-46EF-9793-61A49A1C92F3Q59058526-8A597CA4-1271-4BC0-990B-F640E7AE6684
P2860
Rejoining of X-ray Induced Breaks in the DNA of Leukaemia Cells
description
article publié dans la revue scientifique Nature
@fr
scientific article published in Nature
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в Nature в травні 1967
@uk
name
Rejoining of X-ray Induced Breaks in the DNA of Leukaemia Cells
@en
Rejoining of X-ray Induced Breaks in the DNA of Leukaemia Cells
@nl
type
label
Rejoining of X-ray Induced Breaks in the DNA of Leukaemia Cells
@en
Rejoining of X-ray Induced Breaks in the DNA of Leukaemia Cells
@nl
prefLabel
Rejoining of X-ray Induced Breaks in the DNA of Leukaemia Cells
@en
Rejoining of X-ray Induced Breaks in the DNA of Leukaemia Cells
@nl
P2093
P356
P1433
P1476
Rejoining of x-ray induced breaks in the DNA of leukaemia cells
@en
P2093
P2888
P304
P356
10.1038/214790A0
P407
P577
1967-05-01T00:00:00Z
P6179
1049953553