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Merge pull request #231 from zivy/changeDatasetURL
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Change dataset standard URL to DOI.
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zivy authored Oct 18, 2024
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Expand Up @@ -8,4 +8,4 @@ Iterative Bleaching Extends multi-pleXity (IBEX) 2D and 3D Microscopy Data,"<p>T
"Iterative Bleaching Extends multi-pleXity (IBEX) imaging method, mouse spleen","<p>This dataset was acquired using the Iterative Bleaching Extends multi-pleXity (IBEX) imaging method described in: ""IBEX: A versatile multi-plex optical imaging approach for deep phenotyping and spatial analysis of cells in complex tissues"", A. Radtke et al., 2020, <a href=""https://doi.org//10.1073/pnas.2018488117"">doi:10.1073/pnas.2018488117</a>.</p><p>It is comprised of a three cycle IBEX experiment performed on mouse spleen sections labeled with the nuclear marker JOJO-1 and membrane label CD4 AF594. Images were acquired using an inverted Leica TCS SP8 X confocal microscope equipped with a 40X objective (NA 1.3), 4 HyD and 1 PMT detectors, a white light laser that produces a continuous spectral output between 470 and 670 nm as well as 405, 685, and 730 nm lasers. All images were captured at an 8-bit depth, with a line average of 3, and 1024x1024 format with the following pixel dimensions: x (0.284 mm), y (0.284 mm), and z (1 mm). Images were tiled and merged using the LAS X Navigator software (LAS X 3.5.5.19976).</p><p>Markers per channel in each of the three cycles:</p><ol><li>spleen_panel1.nrrd (6 channels): B220 PE, CD8 BV421, IgD AF700, CD4 AF594, JOJO, Foxp3 eF660</li><li>spleen_panel2.nrrd (7 channels): CD169 PE, F480 BV421, MHCII AF700, CollIV AF488, JOJO, CD11c AF647, CD4 AF594</li><li>spleen_panel3.nrrd (7 channels): CD31 PE, CD68 BV421, Ki67 AF700, CD45 AF488, CD4 AF594, JOJO, CD3 AF647</li></ol><p>The panels can be registered using the <a href=""https://github.com/niaid/sitk-ibex"">code available on github</a>.</p><p>To view these multi-channel images, in <a href=""http://teem.sourceforge.net/nrrd/format.html"">nrrd format</a>, use the <a href=""https://imagej.net/Fiji"">Fiji viewer</a>. The data is stored in XYZC order.</p>",2020,https://doi.org/10.5281/zenodo.4304786,10.1073/pnas.2018488117,CC BY 4.0
"Accompanying dataset for: ""IBEX: A versatile multiplex optical imaging approach for deep phenotyping and spatial analysis of cells in complex tissues""","<p>Mouse datasets were acquired using the manual IBEX multiplex imaging protocol and accompany the manuscript ""IBEX: A versatile multiplex optical imaging approach for deep phenotyping and spatial analysis of cells in complex tissues"", A. Radtke et al., 2020, PNAS.</p><p>All image data are stored using the Imaris file format. To view these multi-channel images, you can use one of these free viewers, <a href=""https://imaris.oxinst.com/imaris-viewer"">Imaris viewer</a>, <a href=""https://imagej.net/Fiji"">Fiji</a>.</p><p>Each experiment has an associated imaging meta-data file in xlsx format and the resulting image in Imaris format.</p><p><strong>Mouse spleen (Manual)</p></strong><p>Dataset is a 16 parameter IBEX experiment performed on a mouse spleen section labeled with the nuclear marker JOJO-1 and antibodies directed against the indicated markers. Images were acquired using an inverted Leica TCS SP8 X confocal microscope equipped with a 40X objective (NA 1.3), 4 HyD and 1 PMT detectors, a white light laser that produces a continuous spectral output between 470 and 670 nm as well as 405, 685, and 730 nm lasers. All images were captured at an 8-bit depth, with a line average of 3, and 1024x1024 format with the following pixel dimensions: x (0.284 &#181;m), y (0.284 &#181;m), and z (1 &#181;m). Images were tiled and merged using the LAS X Navigator software (LAS X 3.5.5.19976).</p><p><strong>Mouse thymus (Manual)</p></strong><p>Dataset is a 26 parameter IBEX experiment performed on a mouse thymus section labeled with the nuclear marker JOJO-1 and antibodies directed against the indicated markers. Images were acquired using an inverted Leica TCS SP8 X confocal microscope equipped with a 40X objective (NA 1.3), 4 HyD and 1 PMT detectors, a white light laser that produces a continuous spectral output between 470 and 670 nm as well as 405, 685, and 730 nm lasers. All images were captured at an 8-bit depth, with a line average of 3, and 1024x1024 format with the following pixel dimensions: x (0.284 &#181;m), y (0.284 &#181;m), and z (1 &#181;m). Images were tiled and merged using the LAS X Navigator software (LAS X 3.5.5.19976).</p><p><strong>Mouse lung (Manual)</p></strong><p>Dataset is a 23 parameter IBEX experiment performed on a mouse lung section labeled with the nuclear marker JOJO-1 and antibodies directed against the indicated markers. Images were acquired using an inverted Leica TCS SP8 X confocal microscope equipped with a 40X objective (NA 1.3), 4 HyD and 1 PMT detectors, a white light laser that produces a continuous spectral output between 470 and 670 nm as well as 405, 685, and 730 nm lasers. All images were captured at an 8-bit depth, with a line average of 3, and 1024x1024 format with the following pixel dimensions: x (0.379 &#181;m), y (0.379 &#181;m), and z (1 &#181;m). Images were tiled and merged using the LAS X Navigator software (LAS X 3.5.5.19976).</p><p><strong>Mouse small intestine (Manual)</p></strong><p>Dataset is a 20 parameter IBEX experiment performed on a mouse small intestine section labeled with the nuclear marker JOJO-1 and antibodies directed against the indicated markers. Images were acquired using an inverted Leica TCS SP8 X confocal microscope equipped with a 40X objective (NA 1.3), 4 HyD and 1 PMT detectors, a white light laser that produces a continuous spectral output between 470 and 670 nm as well as 405, 685, and 730 nm lasers. All images were captured at an 8-bit depth, with a line average of 3, and 1024x1024 format with the following pixel dimensions: x (0.284 &#181;m), y (0.284 &#181;m), and z (1 &#181;m). Images were tiled and merged using the LAS X Navigator software (LAS X 3.5.5.19976).</p><p><strong>Mouse liver (Manual)</p></strong><p>Dataset is an 18 parameter IBEX experiment performed on a liver section from a LysM-tdtomato reporter mouse labeled with antibodies directed against the indicated markers. Images were acquired using an inverted Leica TCS SP8 X confocal microscope equipped with a 40X objective (NA 1.3), 4 HyD and 1 PMT detectors, a white light laser that produces a continuous spectral output between 470 and 670 nm as well as 405, 685, and 730 nm lasers. All images were captured at an 8-bit depth, with a line average of 3, and 1024x1024 format with the following pixel dimensions: x (0.284 &#181;m), y (0.284 &#181;m), and z (1 &#181;m). Images were tiled and merged using the LAS X Navigator software (LAS X 3.5.5.19976).</p><p><strong>Mouse naive lymph node (Manual)</p></strong><p>Dataset is a 41 parameter IBEX experiment performed on a mouse lymph node section labeled with the nuclear marker JOJO-1 and antibodies directed against the indicated markers. Images were acquired using an inverted Leica TCS SP8 X confocal microscope equipped with a 40X objective (NA 1.3), 4 HyD and 1 PMT detectors, a white light laser that produces a continuous spectral output between 470 and 670 nm as well as 405, 685, and 730 nm lasers. All images were captured at an 8-bit depth, with a line average of 3, and 1024x1024 format with the following pixel dimensions: x (0.284 &#181;m), y (0.284 &#181;m), and z (1 &#181;m). Images were tiled and merged using the LAS X Navigator software (LAS X 3.5.5.19976).</p><p><strong>Mouse immunized lymph node (Manual)</p></strong><p>Dataset is a 41 parameter IBEX experiment performed on a mouse lymph node section labeled with the nuclear marker JOJO-1 and antibodies directed against the indicated markers. Images were acquired using an inverted Leica TCS SP8 X confocal microscope equipped with a 40X objective (NA 1.3), 4 HyD and 1 PMT detectors, a white light laser that produces a continuous spectral output between 470 and 670 nm as well as 405, 685, and 730 nm lasers. All images were captured at an 8-bit depth, with a line average of 3, and 1024x1024 format with the following pixel dimensions: x (0.284 &#181;m), y (0.284 &#181;m), and z (1 &#181;m). Images were tiled and merged using the LAS X Navigator software (LAS X 3.5.5.19976).</p>",2024,https://doi.org/10.5281/zenodo.10870402,10.1073/pnas.2018488117,CC BY 4.0
A spatial human thymus cell atlas mapped to a continuous tissue axis,"<p>T cells develop from circulating precursor cells, which enter the thymus and migrate through specialised sub-compartments that support their maturation and selection. In humans, this process starts in early fetal development and is highly active until thymic involution in adolescence. To map the micro-anatomical underpinnings of this process in pre- and early postnatal stages, we established a novel quantitative morphological framework for the thymus, the Cortico-Medullary Axis, and used it to perform a spatially resolved analysis. By applying this framework to a curated multimodal single-cell atlas, spatial transcriptomics, and high-resolution multiplex imaging data, we demonstrate establishment of the lobular cytokine network, canonical thymocyte trajectories and thymic epithelial cell distributions within the first trimester of fetal development. We pinpoint tissue niches of thymic epithelial cell progenitors and distinct subtypes associated with Hassall's corpuscles and uncover divergence in the timing of medullary entry between CD4 vs. CD8 T cell lineages. These findings provide a basis for a detailed understanding of T lymphocyte development and are complemented with a holistic toolkit for cross-platform imaging data analysis, annotation, and Organ Axis construction (TissueTag), which can be applied to any tissue.</p>",2024,https://doi.org/10.6019/S-BIAD1257,10.1101/2023.10.25.562925,CC0
Multi-omic profiling of follicular lymphoma reveals changes in tissue architecture and enhanced stromal remodeling in high-risk patient,"<p>40-plex iterative bleaching extends multiplexity (IBEX) imaging was performed on fixed frozen tissues from normal human lymph nodes and follicular lymphoma lymph nodes. Multiplexed immunofluorescence (MxIF) imaging was performed on serial FFPE tissue sections from follicular lymphoma lymph nodes. Four distinct antibody panels were applied to each tissue section referred to as MxIF Panel 1 (MxIF_P1), MxIF Panel 2 (MxIF_P2), MxIF Panel 3 (MxIF_P3), and MxIF Panel 4 (MxIF_P4). Multiplexed imaging was performed on serial FFPE tissue sections from normal and follicular lymphoma lymph nodes using the Cell DIVE imager and IBEX dye inactivation protocol (Cell DIVE-IBEX). Two panels of antibodies, immune (CellDIVE_IBEX_Immune) or stromal (CellDIVE_IBEX_Stromal), were applied to serial sections. IBEX and MxIF imaging were performed on a discovery cohort of 10 samples. Key spatial findings were extended to a larger validation cohort of 29 samples using the Cell DIVE-IBEX method.</p>",2024,https://idr.openmicroscopy.org/webclient/?show=project-3001,10.1016/j.ccell.2024.02.001,CC BY 4.0
Multi-omic profiling of follicular lymphoma reveals changes in tissue architecture and enhanced stromal remodeling in high-risk patient,"<p>40-plex iterative bleaching extends multiplexity (IBEX) imaging was performed on fixed frozen tissues from normal human lymph nodes and follicular lymphoma lymph nodes. Multiplexed immunofluorescence (MxIF) imaging was performed on serial FFPE tissue sections from follicular lymphoma lymph nodes. Four distinct antibody panels were applied to each tissue section referred to as MxIF Panel 1 (MxIF_P1), MxIF Panel 2 (MxIF_P2), MxIF Panel 3 (MxIF_P3), and MxIF Panel 4 (MxIF_P4). Multiplexed imaging was performed on serial FFPE tissue sections from normal and follicular lymphoma lymph nodes using the Cell DIVE imager and IBEX dye inactivation protocol (Cell DIVE-IBEX). Two panels of antibodies, immune (CellDIVE_IBEX_Immune) or stromal (CellDIVE_IBEX_Stromal), were applied to serial sections. IBEX and MxIF imaging were performed on a discovery cohort of 10 samples. Key spatial findings were extended to a larger validation cohort of 29 samples using the Cell DIVE-IBEX method.</p>",2024,https://doi.org/10.17867/10000199,10.1016/j.ccell.2024.02.001,CC BY 4.0

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