Add to ORKGThe prevailing dogma for radiation biology is that genotoxic effects of ionizing radiation such as mutations and carcinogenesis are attributed mainly to direct damage to the nucleus. However, with the development of microbeam that can target precise positions inside the cells, accumulating evidences have shown that energy deposit by radiation in nuclear DNA is not required to trigger the damage, extra-nuclear or extra-cellular radiation could induce the similar biological effects as well. This review will summarize the biological responses after cytoplasm irradiated by microbeam, and the possible mechanisms involved in cytoplasmic irradiation
Cellular micro-irradiation techniques provide unique experimental opportunities for understanding ho...
Objective: Direct exposure of the nucleus to radiation, is the primary cause of various radio-biolog...
Direct hits in the nucleus by radiation are known as the primary cause of the various radio-biologic...
Background: Direct exposure of the nucleus to radiation, is the primary cause of various radio-biolo...
Direct hits in the nucleus by radiation are known as the primary cause of th e various radio-biologi...
The micro-irradiation technique continues to be highly relevant to a number of radiobiological studi...
The micro-irradiation technique continues to be highly relevant to a number of radiobiological studi...
In classical radiation biology, it is described that initial DNA damages induced directly by the ene...
Objective: Direct exposure of the nucleus to radiation, is the primary cause of various radiobiologi...
In classical radiation biology, it is described that initial DNA damages induced directly by energy ...
1 Introduction Targeted irradiations to either cell nucleus or cytoplasm using microbeams enabl...
BACKGROUND: Direct damage to DNA is generally accepted as the main initiator of mutation and cancer ...
Study using a microbeam can provide us very important scientific evidence to understand radio-biolog...
Direct exposure of the nucleus to radiation, is the primary cause of various radio-biological effect...
Microbeam/3D human tissues/Arabidopsis/Bystander effects/Genomic instability. Recent developments in...
Cellular micro-irradiation techniques provide unique experimental opportunities for understanding ho...
Objective: Direct exposure of the nucleus to radiation, is the primary cause of various radio-biolog...
Direct hits in the nucleus by radiation are known as the primary cause of the various radio-biologic...
Background: Direct exposure of the nucleus to radiation, is the primary cause of various radio-biolo...
Direct hits in the nucleus by radiation are known as the primary cause of th e various radio-biologi...
The micro-irradiation technique continues to be highly relevant to a number of radiobiological studi...
The micro-irradiation technique continues to be highly relevant to a number of radiobiological studi...
In classical radiation biology, it is described that initial DNA damages induced directly by the ene...
Objective: Direct exposure of the nucleus to radiation, is the primary cause of various radiobiologi...
In classical radiation biology, it is described that initial DNA damages induced directly by energy ...
1 Introduction Targeted irradiations to either cell nucleus or cytoplasm using microbeams enabl...
BACKGROUND: Direct damage to DNA is generally accepted as the main initiator of mutation and cancer ...
Study using a microbeam can provide us very important scientific evidence to understand radio-biolog...
Direct exposure of the nucleus to radiation, is the primary cause of various radio-biological effect...
Microbeam/3D human tissues/Arabidopsis/Bystander effects/Genomic instability. Recent developments in...
Cellular micro-irradiation techniques provide unique experimental opportunities for understanding ho...
Objective: Direct exposure of the nucleus to radiation, is the primary cause of various radio-biolog...
Direct hits in the nucleus by radiation are known as the primary cause of the various radio-biologic...