1.4 na plan apochromat vc

Manufactured by Nikon

The 1.4 NA Plan Apochromat VC is a high-performance microscope objective lens designed for advanced laboratory applications. It features a numerical aperture of 1.4, which provides a high resolution and light-gathering capability. The 'Plan Apochromat' designation indicates that the lens is well-corrected for chromatic and spherical aberrations, delivering sharp, high-contrast images across the entire field of view. The 'VC' stands for Vibration Compensation, which helps to minimize the impact of external vibrations on the imaging performance.

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Lab products found in correlation

Eclipse 90i, by Nikon (2 mentions) Vt1200, by Leica (1 mentions) Fluoromount g, by Electron Microscopy Sciences (1 mentions) Vt1200 vibratome, by Leica (1 mentions) Hoechst, by Thermo Fisher Scientific (1 mentions) A1 confocal scanner, by Nikon (1 mentions) Immu mount, by Thermo Fisher Scientific (1 mentions)

Close spelling variants of this product

Plan Apochromat VC PFS 1.4 NA oil-immersion objective 100x 1.4 NA oil DIC Plan-Apochromat VC objective Plan Apochromat VC Plan Apochromat

3 protocols using 1.4 na plan apochromat vc

Confocal Microscopy of Optic Nerve Sections

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Plastic embedded blocks generated for TEM were sectioned through the optic nerve in 500 nm sections and stained with methylene blue for light microscopy as previously described (Lobanova et al., 2008 (link)). Images were taken with a confocal microscope (Eclipse 90i and A1 confocal scanner; Nikon) with a 60× objective (1.4 NA Plan Apochromat VC; Nikon) using Nikon NIS-Elements software. Image analysis and processing was performed with ImageJ.

Lewis T.R., Makia M.S., Castillo C.M., Hao Y., Al-Ubaidi M.R., Skiba N.P., Conley S.M., Arshavsky V.Y, & Naash M.I. (2023). ROM1 is redundant to PRPH2 as a molecular building block of photoreceptor disc rims. bioRxiv.

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Retinal Cross-Section Preparation and Imaging

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Retinal cross‐sections were prepared as previously described.³³, ³⁴ Mouse eyecups were placed in 4% paraformaldehyde in PBS for 2 hours at room temperature (RT). After fixation, eyecups were rinsed in PBS and embedded in 7% low‐melt agarose (A3038; Sigma Aldrich). The agarose‐embedded eyecups were Vibratome sectioned into 100 µm‐thick slices (VT1200S; Leica), which were then blocked in PBS containing 5% goat serum and 0.5 % Triton X‐100 for 1 hours at RT. The sections were incubated with primary antibodies overnight at 4°C, washed three times in PBS for 10 minutes each, and incubated for 2 hours at RT with appropriate secondary antibodies. Stained slices were washed three times in PBS for 10 minutes each, mounted onto slides in Fluoromount G (Electron Microscopy Sciences) and cover‐slipped. Images were taken with a confocal microscope (Eclipse 90i and A1 confocal scanner; Nikon) with a 60× objective (1.4 NA Plan Apochromat VC; Nikon) using Nikon NIS‐Elements software. Image analysis and processing was performed with ImageJ and Nikon NIS‐Elements software.

Hanke‐Gogokhia C., Lehmann G.L., Benedicto I., de la Fuente‐Ortega E., Arshavsky V.Y., Schreiner R, & Rodriguez‐Boulan E. (2021). Apical CLC‐2 in retinal pigment epithelium is crucial for survival of the outer retina. The FASEB Journal, 35(7), e21689.

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Fixation and Sectioning of Mouse Eyes

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Anesthetized mice were transcardially perfused with a fixative solution containing 4% paraformaldehyde in 80 mM PIPES (pH 6.8), 5 mM EGTA, and 2 mM MgCl₂. Eyes were enucleated and post-fixed in the same solution for two hours at room temperature. After fixation, dissected eyecups were embedded in 2.5% low-melt agarose (Precisionary) and cut by a Vibratome (VT1200S; Leica) into 100 µm thick slices as described previously^{52 (link)}. Agarose sections were blocked in PBS containing 5% donkey serum and 0.5% Triton X-100 for 1 h at room temperature before staining with primary antibody in blocking buffer overnight at 4 °C. After primary antibody staining, sections were washed three times in PBS and incubated with secondary antibody in blocking buffer overnight at 4 °C. Finally, sections were washed three times in PBS and nuclei were stained with 10 µg/ml Hoechst (H3569; Thermo Fisher Scientific) for 30 min at room temperature. Finally, sections were washed three times in PBS, and mounted onto slides with Immu-Mount (Thermo) and coverslipped. Images were taken with a confocal microscope (Eclipse 90i and A1 confocal scanner; Nikon) with a 60× objective (1.4 NA Plan Apochromat VC; Nikon) using Nikon NIS-Elements software. Image analysis and processing was performed with ImageJ.

Lewis T.R., Shores C.R., Cady M.A., Hao Y., Arshavsky V.Y, & Burns M.E. (2020). The F220C and F45L rhodopsin mutations identified in retinitis pigmentosa patients do not cause pathology in mice. Scientific Reports, 10, 7538.

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