Live cell microscopy analysis of radiation-induced DNA double-strand break motion.
about
Evidence for formation of DNA repair centers and dose-response nonlinearity in human cellsChoreographing the Double Strand Break Response: Ubiquitin and SUMO Control of Nuclear ArchitectureMicroirradiation techniques in radiobiological researchRepair of strand breaks by homologous recombinationCharacterizing the DNA Damage Response by Cell Tracking Algorithms and Cell Features Classification Using High-Content Time-Lapse AnalysisFormation of mobile chromatin-associated nuclear foci containing HIV-1 Vpr and VPRBP is critical for the induction of G2 cell cycle arrestNanoscale histone localization in live cells reveals reduced chromatin mobility in response to DNA damage.DNA double-strand breaks in heterochromatin elicit fast repair protein recruitment, histone H2AX phosphorylation and relocation to euchromatin.Establishment of a γ-H2AX foci-based assay to determine biological dose of radon to red bone marrow in ratsThe broken MLL gene is frequently located outside the inherent chromosome territory in human lymphoid cells treated with DNA topoisomerase II poison etoposideTwo-Stage Synapsis of DNA Ends during Non-homologous End Joining.Regulation of pairing between broken DNA-containing chromatin regions by Ku80, DNA-PKcs, ATM, and 53BP1Poetry in motion: Increased chromosomal mobility after DNA damage.Biological dose estimation of UVA laser microirradiation utilizing charged particle-induced protein foci.A novel and simple micro-irradiation technique for creating localized DNA double-strand breaks.Use of a microscope stage-mounted Nickel-63 microirradiator for real-time observation of the DNA double-strand break responseCreating localized DNA double-strand breaks with microirradiation.Assessing the risk of second malignancies after modern radiotherapyDevelopment and validation of 'AutoRIF': software for the automated analysis of radiation-induced foci.Dynamics of double strand breaks and chromosomal translocationsATM alters the otherwise robust chromatin mobility at sites of DNA double-strand breaks (DSBs) in human cells.Cell biology of mitotic recombination.DNA end resection is needed for the repair of complex lesions in G1-phase human cells.Radiation induced chromatin conformation changes analysed by fluorescent localization microscopy, statistical physics, and graph theory.DNA damage and repair kinetics after microbeam radiation therapy emulation in living cells using monoenergetic synchrotron X-ray microbeams.Mechanism of cluster DNA damage repair in response to high-atomic number and energy particles radiation.Direct measurement of the 3-dimensional DNA lesion distribution induced by energetic charged particles in a mouse model tissue.Non-redundant Functions of ATM and DNA-PKcs in Response to DNA Double-Strand Breaks.Faithful after break-up: suppression of chromosomal translocations.The cellular etiology of chromosome translocations.Clustered DNA damage induces pan-nuclear H2AX phosphorylation mediated by ATM and DNA-PKThe potential value of the neutral comet assay and γH2AX foci assay in assessing the radiosensitivity of carbon beam in human tumor cell lines.Nuclear dynamics of radiation-induced foci in euchromatin and heterochromatinSpatiotemporal characterization of ionizing radiation induced DNA damage foci and their relation to chromatin organizationRepair of DNA damage induced by accelerated heavy ions--a mini review.DNA in motion during double-strand break repair.The biogenesis of chromosome translocations.Computational model of dose response for low-LET-induced complex chromosomal aberrations.Buried territories: heterochromatic response to DNA double-strand breaks.Generation of cell-based systems to visualize chromosome damage and translocations in living cells.
P2860
Q24609012-81490252-9A37-4EF2-861B-B9BDD10BA1A2Q26744843-787E2780-F050-4342-975E-C88F774C539BQ26786419-791BAC36-A103-411F-A0F6-6397C3220952Q27012688-82C9D3F7-DDB5-44BF-9B86-B3C28CD75E60Q27304711-AF5142E1-7463-48A1-880F-5125D2623780Q27313676-C912B668-37F6-4D84-B2FE-942FEBE3E666Q27342027-0D49A8FB-5D22-4D55-9711-CDEC294ECC69Q28236172-349988F5-F0A2-46F2-8C1F-08BB0F778932Q28384712-A24D5F6A-41F0-4D21-B6A8-2F8AD16825A6Q28533804-88FAB8C6-B774-4198-A461-8CE2E192D673Q30729763-E5D1D850-757B-4834-B189-C258162186D7Q30837383-0CC4F17C-5071-4043-AD67-8D5C4178FAF0Q33470805-3773FE29-02BE-453A-B80D-910429E0E597Q33532337-90544B03-E2CA-4AFC-801B-0629ABA6F939Q33553010-067F47C0-4048-4514-9426-C5FC170495C4Q33581833-789897CE-8B21-4ECD-A032-03C279B647C1Q33811685-59A7CFB3-5379-4D14-B094-FF5A15992BFFQ33914324-D8FEF4D6-9B4D-43AB-9F3C-18EB5CA0E0C4Q34142452-D8CBD027-BFD5-4BDD-B93D-BC7A73F32B26Q34894253-8FFF585A-E710-453A-AF67-009D19C0EEADQ35126415-A6A32D36-231E-48C7-A23E-D55D2981920BQ35164329-1889BAF1-E241-451A-A6FC-CA0857417E15Q35500045-B70C15CE-9311-49BF-820B-998F36ED6636Q35652446-51121B47-2B42-4E46-B3CA-863818B977E0Q35703895-8B87311D-A830-4938-88F2-95A5FE3A29C2Q35868826-B97F7A34-53F9-4595-A3C8-8BFB30F245CCQ36155129-C4DB4AFD-9864-4573-BE10-775A219B4839Q36349861-9C7CC802-872C-4606-8F11-E4C52F24AE0BQ36410982-280EE2F6-0D87-4D73-B328-9B71ACDB2D92Q36944962-66801AB6-A51B-48EC-80D3-23C20A19FC3EQ36963312-448A3B6E-24F2-45FC-9618-E64E68144321Q37225402-05C29B57-8CA1-4B89-9105-B58005629614Q37338520-37E30A6E-2BF0-4130-95A0-6CA25666D407Q37634166-D02D5659-F449-4086-8B64-501AD1ABFC16Q37936381-4EF89165-DD02-4495-8304-18EB0D202217Q38122523-A3FBE7AB-009A-4275-ABBA-05AFAD3B14E1Q38201247-99A78B72-252D-48F6-A8D6-DC7872554B61Q38415171-D2EEEE13-CC67-44F5-8F5C-C550F846ED9DQ38827111-E572FB2A-D144-485B-B9E3-B5E3DEFEF744Q38953390-4F93CD3D-0317-4635-9CD8-1B05CB76469C
P2860
Live cell microscopy analysis of radiation-induced DNA double-strand break motion.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 12 February 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Live cell microscopy analysis of radiation-induced DNA double-strand break motion.
@en
Live cell microscopy analysis of radiation-induced DNA double-strand break motion.
@nl
type
label
Live cell microscopy analysis of radiation-induced DNA double-strand break motion.
@en
Live cell microscopy analysis of radiation-induced DNA double-strand break motion.
@nl
prefLabel
Live cell microscopy analysis of radiation-induced DNA double-strand break motion.
@en
Live cell microscopy analysis of radiation-induced DNA double-strand break motion.
@nl
P2860
P356
P1476
Live cell microscopy analysis of radiation-induced DNA double-strand break motion
@en
P2093
G Taucher-Scholz
J Splinter
P2860
P304
P356
10.1073/PNAS.0810987106
P407
P577
2009-02-12T00:00:00Z