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Xlumplanfl 20x 1.0w

Manufactured by Olympus
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The XLUMPlanFl 20x/1.0W is a waterimmersion objective lens designed for microscopy applications. It has a magnification of 20x and a numerical aperture of 1.0. The lens is optimized for use with water-based samples.

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Lab products found in correlation

Bx51 wi microscope stand, by Olympus (3 mentions) H67080 01, by Hamamatsu Photonics (3 mentions) Trim scope 2, by Miltenyi Biotec (3 mentions) Imspector software, by Miltenyi Biotec (3 mentions)

Spelling variants of this product

XLUMPlanFL (15 citations)

3 protocols using xlumplanfl 20x 1.0w

1

Multi-Photon Imaging of Collagen Fibers

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A TriM Scope II multi photon system from LaVision BioTec was used for SHG imaging to visualise anisotropic structures, such as collagen fibres. The microscope setup is a single beam instrument with an upright Olympus BX51 WI microscope stand equipped with high sensitive non-descanned detectors close to the objective lens. The TriM Scope II is fitted with a Coherent Scientific Chameleon Ultra II Ti:Sapphire laser (tuning range 680-1080 nm) and a Coherent Chameleon Compact OPO (automated wavelength extension from 1000 nm to 1600 nm). A 20x IR objective lens (Olympus XLUMPlanFl 20x/1.0W) with a working distance of 2.0 mm was used. SHG signals were detected using TiSa light at 850 nm, a 420/40 band pass filter and a blue-sensitive photomultiplier (Hamamatsu H67080-01). 3D-images were acquired and processed with LaVision BioTec ImSpector Software under Microsoft Windows. Overview images were reconstructed from a sequence of tiled 3D images with Image J.
Langen U.H., Pitulescu M.E., Kim J.M., Enriquez-Gasca R., Sivaraj K.K., Kusumbe A.P., Singh A., Di Russo J., Bixel M.G., Zhou B., Sorokin L., Vaquerizas J.M, & Adams R.H. (2017). Cell-matrix signals specify bone endothelial cells during developmental osteogenesis. Nature cell biology, 19(3), 189-201.
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2

Multi-Photon Imaging of Collagen Fibers

Check if the same lab product or an alternative is used in the 5 most similar protocols
A TriM Scope II multi photon system from LaVision BioTec was used for SHG imaging to visualise anisotropic structures, such as collagen fibres. The microscope setup is a single beam instrument with an upright Olympus BX51 WI microscope stand equipped with high sensitive non-descanned detectors close to the objective lens. The TriM Scope II is fitted with a Coherent Scientific Chameleon Ultra II Ti:Sapphire laser (tuning range 680-1080 nm) and a Coherent Chameleon Compact OPO (automated wavelength extension from 1000 nm to 1600 nm). A 20x IR objective lens (Olympus XLUMPlanFl 20x/1.0W) with a working distance of 2.0 mm was used. SHG signals were detected using TiSa light at 850 nm, a 420/40 band pass filter and a blue-sensitive photomultiplier (Hamamatsu H67080-01). 3D-images were acquired and processed with LaVision BioTec ImSpector Software under Microsoft Windows. Overview images were reconstructed from a sequence of tiled 3D images with Image J.
Langen U.H., Pitulescu M.E., Kim J.M., Enriquez-Gasca R., Sivaraj K.K., Kusumbe A.P., Singh A., Di Russo J., Bixel M.G., Zhou B., Sorokin L., Vaquerizas J.M, & Adams R.H. (2017). Cell-matrix signals specify bone endothelial cells during developmental osteogenesis. Nature cell biology, 19(3), 189-201.
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3

Visualizing Skeletal Muscle Fiber Organization

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A TriM Scope II multi photon system from LaVision BioTec was used to visualize skeletal muscle fiber organization inside organoids and distinct sarcomeres. The microscope setup is a single beam instrument with an upright Olympus BX51 WI microscope stand equipped with highly sensitive nondescanned detectors close to the objective lens. The TriM Scope II is fitted with a Coherent Scientific Chameleon Ultra II Ti:Sapphire laser (tuning range 680-1080 nm) and a Coherent Chameleon Compact OPO (automated wavelength extension from 1000 nm to 1600 nm). A 20x IR objective lens (Olympus XLUMPlanFl 20x/1.0W) with a working distance of 2.0 mm was used.
Muscle fiber SHG signals were detected in forward direction using TiSa light at 850 nm, a 420/40 band pass filter and a blue-sensitive photomultiplier (Hamamatsu H67080-01). 3D-images were acquired and processed with LaVision BioTec ImSpector Software.
Mavrommatis L., Jeong H., Kindler U., Gomez‐Giro G., Kienitz M., Stehling M., Psathaki O.E., Zeuschner D., Bixel M.G., Han D., Moroşan-Puopolo G., Gerovska D., Yang J.H., Kim J.B., Araúzo‐Bravo M.J., Schwamborn J.C., Hahn S.A., Adams R.H., Schöler H.R., Vorgerd M., Brand‐Saberi B., & Zaehres H. (2020). Human skeletal muscle organoids model fetal myogenesis and sustain uncommitted PAX7 myogenic progenitors.
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