compact cell irradiator Search Results


cell irradiation  (Coherent Corp)
96
Coherent Corp cell irradiation
With low exposures of radiation (3.6 mJ, 800 nm, which acts like 400 nm or 267 nm in a 2- or 3-photon excitation mode), single strand breaks are created in the nucleus. XRCC1 is a repair protein that moves towards the single strand breaks and forms a brighter fluorescent focus. The first seven frames depict images taken every 10 s. A cell starts in the top left corner of the screen (a), is brought to the center of the screen using OET for <t>irradiation</t> (b), and a focus is formed (c–g). Finally, after 5 min, the focus has faded and the cell is moved to the right side of the screen (h). Images are taken at 500 ms exposure time with the projected light pattern filtered out by a bandpass filter, and the scale bar is 100 um. Arrows are provided to guide the reader to the location of the cell.
Cell Irradiation, supplied by Coherent Corp, used in various techniques. Bioz Stars score: 96/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/cell irradiation/product/Coherent Corp
Average 96 stars, based on 1 article reviews
cell irradiation - by Bioz Stars, 2026-06
96/100 stars
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elekta compact linear accelerator  (Elekta)
86
Elekta elekta compact linear accelerator
With low exposures of radiation (3.6 mJ, 800 nm, which acts like 400 nm or 267 nm in a 2- or 3-photon excitation mode), single strand breaks are created in the nucleus. XRCC1 is a repair protein that moves towards the single strand breaks and forms a brighter fluorescent focus. The first seven frames depict images taken every 10 s. A cell starts in the top left corner of the screen (a), is brought to the center of the screen using OET for <t>irradiation</t> (b), and a focus is formed (c–g). Finally, after 5 min, the focus has faded and the cell is moved to the right side of the screen (h). Images are taken at 500 ms exposure time with the projected light pattern filtered out by a bandpass filter, and the scale bar is 100 um. Arrows are provided to guide the reader to the location of the cell.
Elekta Compact Linear Accelerator, supplied by Elekta, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/elekta compact linear accelerator/product/Elekta
Average 86 stars, based on 1 article reviews
elekta compact linear accelerator - by Bioz Stars, 2026-06
86/100 stars
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compact linear accelerator primus  (Siemens AG)
90
Siemens AG compact linear accelerator primus
With low exposures of radiation (3.6 mJ, 800 nm, which acts like 400 nm or 267 nm in a 2- or 3-photon excitation mode), single strand breaks are created in the nucleus. XRCC1 is a repair protein that moves towards the single strand breaks and forms a brighter fluorescent focus. The first seven frames depict images taken every 10 s. A cell starts in the top left corner of the screen (a), is brought to the center of the screen using OET for <t>irradiation</t> (b), and a focus is formed (c–g). Finally, after 5 min, the focus has faded and the cell is moved to the right side of the screen (h). Images are taken at 500 ms exposure time with the projected light pattern filtered out by a bandpass filter, and the scale bar is 100 um. Arrows are provided to guide the reader to the location of the cell.
Compact Linear Accelerator Primus, supplied by Siemens AG, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/compact linear accelerator primus/product/Siemens AG
Average 90 stars, based on 1 article reviews
compact linear accelerator primus - by Bioz Stars, 2026-06
90/100 stars
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compact cell irradiator  (Faxitron Bioptics)
86
Faxitron Bioptics compact cell irradiator
With low exposures of radiation (3.6 mJ, 800 nm, which acts like 400 nm or 267 nm in a 2- or 3-photon excitation mode), single strand breaks are created in the nucleus. XRCC1 is a repair protein that moves towards the single strand breaks and forms a brighter fluorescent focus. The first seven frames depict images taken every 10 s. A cell starts in the top left corner of the screen (a), is brought to the center of the screen using OET for <t>irradiation</t> (b), and a focus is formed (c–g). Finally, after 5 min, the focus has faded and the cell is moved to the right side of the screen (h). Images are taken at 500 ms exposure time with the projected light pattern filtered out by a bandpass filter, and the scale bar is 100 um. Arrows are provided to guide the reader to the location of the cell.
Compact Cell Irradiator, supplied by Faxitron Bioptics, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/compact cell irradiator/product/Faxitron Bioptics
Average 86 stars, based on 1 article reviews
compact cell irradiator - by Bioz Stars, 2026-06
86/100 stars
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Image Search Results


With low exposures of radiation (3.6 mJ, 800 nm, which acts like 400 nm or 267 nm in a 2- or 3-photon excitation mode), single strand breaks are created in the nucleus. XRCC1 is a repair protein that moves towards the single strand breaks and forms a brighter fluorescent focus. The first seven frames depict images taken every 10 s. A cell starts in the top left corner of the screen (a), is brought to the center of the screen using OET for irradiation (b), and a focus is formed (c–g). Finally, after 5 min, the focus has faded and the cell is moved to the right side of the screen (h). Images are taken at 500 ms exposure time with the projected light pattern filtered out by a bandpass filter, and the scale bar is 100 um. Arrows are provided to guide the reader to the location of the cell.

Journal: The Review of Scientific Instruments

Article Title: Optofluidic cell manipulation for a biological microbeam

doi: 10.1063/1.4774043

Figure Lengend Snippet: With low exposures of radiation (3.6 mJ, 800 nm, which acts like 400 nm or 267 nm in a 2- or 3-photon excitation mode), single strand breaks are created in the nucleus. XRCC1 is a repair protein that moves towards the single strand breaks and forms a brighter fluorescent focus. The first seven frames depict images taken every 10 s. A cell starts in the top left corner of the screen (a), is brought to the center of the screen using OET for irradiation (b), and a focus is formed (c–g). Finally, after 5 min, the focus has faded and the cell is moved to the right side of the screen (h). Images are taken at 500 ms exposure time with the projected light pattern filtered out by a bandpass filter, and the scale bar is 100 um. Arrows are provided to guide the reader to the location of the cell.

Article Snippet: There are three separate light sources that are all required for the experiment described below: the projected OET image generated by a commercial projector (Epson EMP-755, Nagano, Japan), a titanium sapphire (Ti:S) laser for cell irradiation (Coherent Chameleon, Santa Clara, CA, USA), and a mercury lamp to illuminate fluorescent cells (EXFO Acticure EFOS A4000, USA).

Techniques: Irradiation

With high exposures of UV radiation (28.95 mJ, 750 nm, which acts like 375 nm or 250 nm in a 2- or 3- photon excitation mode), the entire cell is damaged. The cell starts on the left side of the image (a), and is brought to the center of the middle image using OET (b) for irradiation (c). Images are taken at 500 ms exposure time with the pattern filtered out by a green bandpass filter, and the scale bar is 100 μm.

Journal: The Review of Scientific Instruments

Article Title: Optofluidic cell manipulation for a biological microbeam

doi: 10.1063/1.4774043

Figure Lengend Snippet: With high exposures of UV radiation (28.95 mJ, 750 nm, which acts like 375 nm or 250 nm in a 2- or 3- photon excitation mode), the entire cell is damaged. The cell starts on the left side of the image (a), and is brought to the center of the middle image using OET (b) for irradiation (c). Images are taken at 500 ms exposure time with the pattern filtered out by a green bandpass filter, and the scale bar is 100 μm.

Article Snippet: There are three separate light sources that are all required for the experiment described below: the projected OET image generated by a commercial projector (Epson EMP-755, Nagano, Japan), a titanium sapphire (Ti:S) laser for cell irradiation (Coherent Chameleon, Santa Clara, CA, USA), and a mercury lamp to illuminate fluorescent cells (EXFO Acticure EFOS A4000, USA).

Techniques: Irradiation