rnascope probe negative control (Advanced Cell Diagnostics Inc)
90
Structured Review
Advanced Cell Diagnostics Inc
rnascope probe negative control
Rnascope Probe Negative Control, supplied by Advanced Cell Diagnostics Inc, 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/rnascope probe negative control/product/Advanced Cell Diagnostics Inc
Average 90 stars, based on 1 article reviews
Rnascope Probe Negative Control, supplied by Advanced Cell Diagnostics Inc, 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/rnascope probe negative control/product/Advanced Cell Diagnostics Inc
Average 90 stars, based on 1 article reviews
rnascope probe negative control - by Bioz Stars,
2026-03
90/100 stars
![. Top panel: schematic representation of a 48 hpf embryo (reproduced with modifications from [16]); red line = aorta (from which hematopoietic stem cell precursors emerge); blue line = vein (showing particularly the vein plexus, constituting the CHT). The embryo used expresses eGFP under the control of the vascular kdrl promotor [ Tg(kdrl: eGFP) fish line]. Bottom panels: spinning disk confocal images obtained either in the trunk region (left: AGM) or in the tail region (right: CHT). Images shown were obtained either from maximal z-projections of z-stacks or from single z-sections with 3× magnification of regions in white boxes. Green channel: vascular cells expressing soluble eGFP [aortic and vein endothelial cells, including cells of the hemogenic endothelium (HE; white arrows) in the trunk and tail regions] as well as newly born HSPCs (white asterisks). Magenta: <t>RNAscope</t> spots indicating expression of cmyb mRNAs in the HE and in HSPCs. Note the presence of RNAscope spots in the trunk (top left image) and in the gut region (magenta arrows) that indicate the potential expression of cmyb in more differentiated patrolling immune cells. AGM: aorta gonad mesonephros; CHT: caudal hematopoietic tissue; HSPCs: hematopoietic stem and progenitor cells. Scale bars = 20 μm.](https://pub-med-central-images-cdn.bioz.com/pub_med_central_ids_ending_with_6847/pmc11986847/pmc11986847__BioProtoc-15-7-5269-g003.jpg)
![Spinning disk confocal images obtained with a 5 dpf larva [ Tg(kdrl:eGFP ) fish line] expressing eGFP in endothelial cells under the control of the vascular kdrl promotor. Images show the pronephros region with a maximal z-projection (left) of a z-stack encompassing a total of 240 sections, each interspaced by 0.5 μm, and z-sections (right: images of sections 52/240, 86/240, 186/240, and 222/240 from top to bottom, respectively). The cmyb RNAscope signals (magenta) correspond to hematopoietic stem and progenitor cells (HSPCs) accumulated in the peri-glomerular region (white arrow), surrounded by vessels. Note the more distant localization of cmyb signals (magenta arrows, hypothetically in HSPCs) along vessels (green arrows). This unveils the potential complexity of the pronephros niche. ISV = intersegmental vessel. This z-stack is also visualized in and reconstituted in 3D using Imaris in . Note also the nonspecific capture of the dye in the notochord, which facilitated the localization of the glomerulus. Scale bars = 20 μm.](https://pub-med-central-images-cdn.bioz.com/pub_med_central_ids_ending_with_6847/pmc11986847/pmc11986847__BioProtoc-15-7-5269-g005.jpg)
![Spinning disk confocal images obtained with a 5 dpf larva [ Tg(runx1+23:eGFP ) fish line] expressing eGFP in HSPCs under the control of the runx1+23 enhancer. Panels are constituted from images obtained either in the trunk region (left: AGM) or in the tail (right: CHT), either from maximum z-projections of z-stacks or from single z-sections with 2× magnification of regions in white boxes, highlighting hematopoietic clusters (dashed lines). RNAscope signals (magenta) colocalize in the majority with HSPCs (see also Figure 7 and for 3D reconstitution). AGM: aorta gonad mesonephros; CHT: caudal hematopoietic tissue; HSPCs: hematopoietic stem and progenitor cells. Scale bars = 20 μm.](https://pub-med-central-images-cdn.bioz.com/pub_med_central_ids_ending_with_6847/pmc11986847/pmc11986847__BioProtoc-15-7-5269-g006.jpg)
![. Top panel: schematic representation of a 5 dpf larva (reproduced with modifications from [16]); red line = aorta; blue line = vein. The larva used expresses eGFP under the control of the vascular kdrl promotor [ Tg(kdrl: eGFP) fish line]. Bottom panels: spinning disk confocal images obtained either in the trunk region (left: AGM) or in the tail region (right: CHT). Images shown were obtained either from maximal z-projections of z-stacks or from single z-sections with 1.5× magnification of regions in white boxes. Green channel: vascular cells expressing soluble eGFP (aortic and veinous endothelial cells in the trunk and tail regions). Magenta: RNAscope spots indicating expression of cmyb mRNAs in HSPCs. Note that RNAscope signals cannot be superposed to individual cells because HSPCs are no longer expressing eGFP driven by the vascular kdrl promoter, as is the case in 48 hpf embryos (owing to distant timing from their emergence, half-life of eGFP, and division cycles diluting the fluorescent protein). Note the structural evolution of the vein niche, notably in the CHT, in comparison with the 48 hpf embryo shown in Figure 3, and the relatively regular positioning of hematopoietic clusters (delimited by dashed lines in the bottom right image). AGM: aorta gonad mesonephros; CHT: caudal hematopoietic tissue; HSPCs: hematopoietic stem and progenitor cells. Scale bars = 20 μm.](https://pub-med-central-images-cdn.bioz.com/pub_med_central_ids_ending_with_6847/pmc11986847/pmc11986847__BioProtoc-15-7-5269-g004.jpg)
![Top images show Ibidi dishes, with the recommended dissection area on the top and the agarose mounting area at the bottom (white rectangles). 48 hpf embryos (a, b) and 5 dpf larvae (a’, b’) were either (a, a’) or not (b, b’) treated with proteinase K and all of them with RNAscope reagents. Images show that the whole procedure leads to virtually total transparency of the specimen, which reaches a maximum for embryos [becoming barely visible as in (a)]. This transparency requires controlling all steps of reagent/buffer removal under the binoculars. Yolks were dissected, as well as the eyes facing the glass bottom of the dish to ensure flatness.](https://pub-med-central-images-cdn.bioz.com/pub_med_central_ids_ending_with_6847/pmc11986847/pmc11986847__BioProtoc-15-7-5269-g008.jpg)
![All data plotted are extracted from a single caudal hematopoietic tissue (CHT) z-stack showing the expression of cmyb (RNAscope spots) in hematopoietic cells expressing eGFP under the control of the runx1+23 enhancer. (A) Imaris Vantage 2D plotting, cell number of RNAscope spots relative to the cell area (µm). (B) Imaris vantage cumulative distribution function (CDF) plotting, cumulative number of spots percentage relative to the shortest distance to cell surface (µm). Solid pink line: our data; dashed pink line and light pink interval: confidence interval’s random distribution; red vertical line: calculated attraction distance. (C) Data extraction from Imaris and plotting in R studio using the ggstatsplot package. Top plot shows the correlation between cell size (µm) and number of spots per cell. Bottom plot shows the number of spots per cell depending on cell size [large cell > 11,490 voxels (corresponding to the median cell size), small cells < 11,490 voxels]. The code to generate the plots is given in Data analysis, section C.](https://pub-med-central-images-cdn.bioz.com/pub_med_central_ids_ending_with_6847/pmc11986847/pmc11986847__BioProtoc-15-7-5269-g009.jpg)