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Cytonix Corporation depth 4x cell chamber slide
Depth 4x Cell Chamber Slide, supplied by Cytonix Corporation, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Cellvis Inc one well chamber slide for photolabeling
Core Workflow Modules of the Microscoop® System The figure displays the three primary user interfaces (UIs) used for experimental execution. Imaging : Provides real-time images from the microscope camera. Imaging parameters, including channel selection, lamp intensity, and exposure time, can be adjusted in the left panel. Pattern Generation : The upper toolbar contains image-processing functions used to define targets for labeling, while the left panel displays the masking procedures. The central workspace displays the acquired images together with their corresponding masks and calculates the pixel count for each image. <t>Photolabeling</t> : Serves as the central control panel for managing laser parameters (power and labeling time) and automating the labeling sequence. During photolabeling, the pixel count and labeling duration are recorded in the bottom-right panel.
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Cellvis Inc well chamber slides
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Miles Laboratories eight chamber lab tektm tissue culture slides
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Sarstedt glass chamber slides
Core Workflow Modules of the Microscoop® System The figure displays the three primary user interfaces (UIs) used for experimental execution. Imaging : Provides real-time images from the microscope camera. Imaging parameters, including channel selection, lamp intensity, and exposure time, can be adjusted in the left panel. Pattern Generation : The upper toolbar contains image-processing functions used to define targets for labeling, while the left panel displays the masking procedures. The central workspace displays the acquired images together with their corresponding masks and calculates the pixel count for each image. <t>Photolabeling</t> : Serves as the central control panel for managing laser parameters (power and labeling time) and automating the labeling sequence. During photolabeling, the pixel count and labeling duration are recorded in the bottom-right panel.
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Matsunami Glass press poly d lysine coated 8 chamber slides
Core Workflow Modules of the Microscoop® System The figure displays the three primary user interfaces (UIs) used for experimental execution. Imaging : Provides real-time images from the microscope camera. Imaging parameters, including channel selection, lamp intensity, and exposure time, can be adjusted in the left panel. Pattern Generation : The upper toolbar contains image-processing functions used to define targets for labeling, while the left panel displays the masking procedures. The central workspace displays the acquired images together with their corresponding masks and calculates the pixel count for each image. <t>Photolabeling</t> : Serves as the central control panel for managing laser parameters (power and labeling time) and automating the labeling sequence. During photolabeling, the pixel count and labeling duration are recorded in the bottom-right panel.
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Matsunami Glass 8 chamber slides
Core Workflow Modules of the Microscoop® System The figure displays the three primary user interfaces (UIs) used for experimental execution. Imaging : Provides real-time images from the microscope camera. Imaging parameters, including channel selection, lamp intensity, and exposure time, can be adjusted in the left panel. Pattern Generation : The upper toolbar contains image-processing functions used to define targets for labeling, while the left panel displays the masking procedures. The central workspace displays the acquired images together with their corresponding masks and calculates the pixel count for each image. <t>Photolabeling</t> : Serves as the central control panel for managing laser parameters (power and labeling time) and automating the labeling sequence. During photolabeling, the pixel count and labeling duration are recorded in the bottom-right panel.
8 Chamber Slides, supplied by Matsunami Glass, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


Core Workflow Modules of the Microscoop® System The figure displays the three primary user interfaces (UIs) used for experimental execution. Imaging : Provides real-time images from the microscope camera. Imaging parameters, including channel selection, lamp intensity, and exposure time, can be adjusted in the left panel. Pattern Generation : The upper toolbar contains image-processing functions used to define targets for labeling, while the left panel displays the masking procedures. The central workspace displays the acquired images together with their corresponding masks and calculates the pixel count for each image. Photolabeling : Serves as the central control panel for managing laser parameters (power and labeling time) and automating the labeling sequence. During photolabeling, the pixel count and labeling duration are recorded in the bottom-right panel.

Journal: STAR Protocols

Article Title: Protocol to define the in situ proteome of endogenous PRC2 bodies in the triple-negative breast cancer cell line BoM-1833 using optoproteomics

doi: 10.1016/j.xpro.2026.104578

Figure Lengend Snippet: Core Workflow Modules of the Microscoop® System The figure displays the three primary user interfaces (UIs) used for experimental execution. Imaging : Provides real-time images from the microscope camera. Imaging parameters, including channel selection, lamp intensity, and exposure time, can be adjusted in the left panel. Pattern Generation : The upper toolbar contains image-processing functions used to define targets for labeling, while the left panel displays the masking procedures. The central workspace displays the acquired images together with their corresponding masks and calculates the pixel count for each image. Photolabeling : Serves as the central control panel for managing laser parameters (power and labeling time) and automating the labeling sequence. During photolabeling, the pixel count and labeling duration are recorded in the bottom-right panel.

Article Snippet: One-well chamber slide for photolabeling , Cellvis, USA , Cat# C1-1.5H-N.

Techniques: Imaging, Microscopy, Selection, Labeling, Control, Sequencing

Microscoop® Mint–based ROI recognition and photolabeling of EZH2 clusters A photolabeling mask was generated from the immunostaining signal of EZH2 clusters (magenta) in BoM-1833 cells using image-processing functions. The images shown were acquired on the Microscoop® system during mask preparation. Scale bar: 10 μm.

Journal: STAR Protocols

Article Title: Protocol to define the in situ proteome of endogenous PRC2 bodies in the triple-negative breast cancer cell line BoM-1833 using optoproteomics

doi: 10.1016/j.xpro.2026.104578

Figure Lengend Snippet: Microscoop® Mint–based ROI recognition and photolabeling of EZH2 clusters A photolabeling mask was generated from the immunostaining signal of EZH2 clusters (magenta) in BoM-1833 cells using image-processing functions. The images shown were acquired on the Microscoop® system during mask preparation. Scale bar: 10 μm.

Article Snippet: One-well chamber slide for photolabeling , Cellvis, USA , Cat# C1-1.5H-N.

Techniques: Generated, Immunostaining

An example of volcano plot summarizing MS data generated from optoproteomics workflow After LC–MS/MS analysis, photolabeled samples (PL) were compared with corresponding non-illuminated/unlabeled controls (UL) to generate a volcano plot, with x axis being fold change difference between PL and UL, and y-axis being p-value. A right-skewed volcano plot and an identification of the photolabeling target is expected. The dataset used for preparing this figure has been previously published.

Journal: STAR Protocols

Article Title: Protocol to define the in situ proteome of endogenous PRC2 bodies in the triple-negative breast cancer cell line BoM-1833 using optoproteomics

doi: 10.1016/j.xpro.2026.104578

Figure Lengend Snippet: An example of volcano plot summarizing MS data generated from optoproteomics workflow After LC–MS/MS analysis, photolabeled samples (PL) were compared with corresponding non-illuminated/unlabeled controls (UL) to generate a volcano plot, with x axis being fold change difference between PL and UL, and y-axis being p-value. A right-skewed volcano plot and an identification of the photolabeling target is expected. The dataset used for preparing this figure has been previously published.

Article Snippet: One-well chamber slide for photolabeling , Cellvis, USA , Cat# C1-1.5H-N.

Techniques: Generated, Liquid Chromatography with Mass Spectroscopy