Search results for 'Pou5f1'
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Stellaris® FISH Probes, Mouse Pou5f1 with CAL Fluor® Red 590 Dye
Stellaris® FISH Probes, Mouse Pou5f1 with CAL Fluor® Red 610 Dye
Stellaris® FISH Probes, Mouse Pou5f1 with Quasar® 570 Dye
Stellaris® FISH Probes, Mouse Pou5f1 with Quasar® 670 Dye
Stellaris® FISH Probes, Human POU5F1 / POU5F2 with CAL Fluor® Red 590
Stellaris® FISH Probes, Human POU5F1 / POU5F2 with CAL Fluor® Red 610
Stellaris® FISH Probes, Human POU5F1 / POU5F2 with Quasar® 570
Stellaris® FISH Probes, Human POU5F1 / POU5F2 with Quasar® 670
Stellaris® FISH Probes, Human POU5F1 / POU5F2 with CAL Fluor® Red 635
Stellaris® FISH Probes, Human POU5F1 / POU5F2 with CAL Fluor® Orange 560
Stellaris® FISH Probes, Human POU5F1 / POU5F2 with FAM
Stellaris® FISH Probes, Mouse Pou5f1 with FAM
Stellaris® FISH Probes, Mouse Pou5f1 with CAL Fluor® Red 590
Stellaris® FISH Probes, Mouse Pou5f1 with CAL Fluor® Red 610
Stellaris® FISH Probes, Mouse Pou5f1 with Quasar® 570
Stellaris® FISH Probes, Mouse Pou5f1 with Quasar® 670
Stellaris® FISH Probes, Mouse Pou5f1 with CAL Fluor® Red 635
Stellaris® FISH Probes, Mouse Pou5f1 with CAL Fluor® Orange 560
RNA FISH for stem cell research
Stem cells hold great promise for the treatment of various diseases due to their capacity for self-renewal and ability to differentiate. Stellaris™ RNA fluorescence in situ hybridisation offers a unique insight into the expression patterns of embryonic and adult stem cells.
RNA FISH for neuroscience
Visualisation and quantification of neuroscience-related single RNA transcripts, using Stellaris™ RNA fluorescence in situ hybridization (RNA FISH) or smFISH, offers the unique ability to observe altered disease or region-specific expression in fixed cells or tissues, including an entire intact brain or organism.
RNA FISH for mouse
About 25% of publications citing Stellaris™ RNA FISH use mouse targets, making this the second most common target after humans.