Add to ORKGWe present a new approach to model dose rate effects on cell killing after photon radiation based on the spatio-temporal clustering of DNA double strand breaks (DSBs) within higher order chromatin structures of approximately 1–2 Mbp size, so called giant loops. The main concept of this approach consists of a distinction of two classes of lesions, isolated and clustered DSBs, characterized by the number of double strand breaks induced in a giant loop. We assume a low lethality and fast component of repair for isolated DSBs and a high lethality and slow component of repair for clustered DSBs. With appropriate rates, the temporal transition between the different lesion classes is expressed in terms of five differential equations. These allow f...
The structure of chromatin at the level of the 30 nm fibre has been studied in considerable detail, ...
In contrast to the classic view of static DNA double-strand breaks (DSBs) being repaired at the site...
A computational model of radiation-induced chromosome aberrations in human cells within the PARTRAC ...
<div><p>We present a new approach to model dose rate effects on cell killing after photon radiation ...
We present a new approach to model dose rate effects on cell killing after photon radiation based on...
We present a new approach to model dose rate effects on cell killing after photon radiation based on...
A new, simple mechanistic dose-response model for cell survival after photon irradiation is presente...
We present an application of the Giant LOop Binary LEsion (GLOBLE) model to the case of cell killing...
This work is dedicated to the elucidation of time-dose- and if applicable linear energy transfer (LE...
Cell death is a crucial endpoint in radiation damage, and many theoretical models have been proposed...
Some open questions on the mechanisms underlying radiation-induced cell death were addressed by a bi...
The main goal of our study is to develop a realistic mechanistic model of the effect of ionizing rad...
A mechanism-based model of radiation cell death will be presented, assuming that dicentrics, rings a...
The different DNA damage repair pathways like homologous recombination (HR) and non-homologous end j...
The role played by DNA cluster damage and chromosome aberrations in radiation-induced cell killing w...
The structure of chromatin at the level of the 30 nm fibre has been studied in considerable detail, ...
In contrast to the classic view of static DNA double-strand breaks (DSBs) being repaired at the site...
A computational model of radiation-induced chromosome aberrations in human cells within the PARTRAC ...
<div><p>We present a new approach to model dose rate effects on cell killing after photon radiation ...
We present a new approach to model dose rate effects on cell killing after photon radiation based on...
We present a new approach to model dose rate effects on cell killing after photon radiation based on...
A new, simple mechanistic dose-response model for cell survival after photon irradiation is presente...
We present an application of the Giant LOop Binary LEsion (GLOBLE) model to the case of cell killing...
This work is dedicated to the elucidation of time-dose- and if applicable linear energy transfer (LE...
Cell death is a crucial endpoint in radiation damage, and many theoretical models have been proposed...
Some open questions on the mechanisms underlying radiation-induced cell death were addressed by a bi...
The main goal of our study is to develop a realistic mechanistic model of the effect of ionizing rad...
A mechanism-based model of radiation cell death will be presented, assuming that dicentrics, rings a...
The different DNA damage repair pathways like homologous recombination (HR) and non-homologous end j...
The role played by DNA cluster damage and chromosome aberrations in radiation-induced cell killing w...
The structure of chromatin at the level of the 30 nm fibre has been studied in considerable detail, ...
In contrast to the classic view of static DNA double-strand breaks (DSBs) being repaired at the site...
A computational model of radiation-induced chromosome aberrations in human cells within the PARTRAC ...