A computational approach to quantifying miscounting of radiation-induced double-strand break immunofluorescent foci

Version 2 2022-05-06, 14:21

Version 1 2022-05-03, 11:21

dataset

posted on 2022-05-06, 14:21 authored by Samuel IngramSamuel Ingram

Data set for the following work:

A computational approach to quantifying miscounting of radiation-induced double-strand break immunofluorescent foci. Ingram et al., Commun Biology (2022).

Please see Readme.txt for details on the file formats.

Funding

NIHR Manchester BRC

National Institute for Health Research

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Global Challenge Network+ in Advanced Radiotherapy

Science and Technology Facilities Council

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Infrastructure in Proton International Research INSPIRE

Ministry of Science and Higher Education

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BioProton: Biologically relevant dose for Proton Therapy Planning

Engineering and Physical Sciences Research Council

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Keywords

Radiobiology H2AX 53BP1 In silico DNA Reapir DNA Damage Radiotherapy Radiation Therapy Cell Biology

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CC BY 4.0

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A computational approach to quantifying miscounting of radiation-induced double-strand break immunofluorescent foci

Funding

NIHR Manchester BRC

Global Challenge Network+ in Advanced Radiotherapy

Infrastructure in Proton International Research INSPIRE

BioProton: Biologically relevant dose for Proton Therapy Planning

History

Usage metrics

Categories

Keywords

Licence

Exports