Eclipse ti e inverted epifluorescent microscope

Manufactured by Nikon

The Eclipse Ti-E inverted epifluorescent microscope is a high-performance laboratory equipment designed for advanced imaging applications. It features a motorized inverted stand and supports a range of fluorescence imaging techniques. The microscope is capable of capturing detailed images and data for research and analysis purposes.

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Lab products found in correlation

Nis element, by Nikon (1 mentions) Accuri c6, by BD (1 mentions) Nis elements software, by Nikon (1 mentions)

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2 protocols using eclipse ti e inverted epifluorescent microscope

Large-Scale Muscle Imaging and Analysis

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All images were obtained using a Nikon Eclipse Ti-E inverted epifluorescent microscope equipped with a motorized stage. Images were acquired in NIS-Elements software (Nikon) with a 10x/0.3NA PlanFluor objective. The ND acquisition menu within Elements was used to take images from adjacent fields of view and digitally stitch them (with 15% overlap) to form a single image of the entire muscle cross-section (approximately 20–30 mm²) used for analysis. For our analyses, all images were acquired as 16-bit multi-channel images, which open in Fiji as 16-bit hyperstacks. Myosoft will work with 8 or 16-bit images, but images must be formatted as hyperstacks prior to analysis. We provide an ImageJ macro for converting single channel images into a Myosoft-compatible hyperstack in S2 File.

Encarnacion-Rivera L., Foltz S., Hartzell H.C, & Choo H. (2020). Myosoft: An automated muscle histology analysis tool using machine learning algorithm utilizing FIJI/ImageJ software. PLoS ONE, 15(3), e0229041.

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Multimodal Flow Cytometry and Microscopy

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A Becton Dickinson Accuri™ C6 outfitted with a 488 nm laser and a 552 nm laser were used for all flow cytometry analysis. Further data processing was performed using FlowJo^TM software. A Nikon Eclipse Ti-E inverted epifluorescent microscope, with an Andor^® Zyla scientific CMOS (sCMOS) camera mounted for image acquisition, was used for fluorescence imaging and Nikon’s NIS-Elements software was used for capturing and analyzing images.

Scott F.Y., Heyde K.C., Rice M.K, & Ruder W.C. (2018). Engineering a living biomaterial via bacterial surface capture of environmental molecules. Synthetic Biology, 3(1), ysy017.

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