1.4na planapochromat oil objective

Manufactured by Zeiss

Sourced in France

The 63X 1.4NA PlanApochromat oil objective is a high-performance microscope objective lens designed by Zeiss. It offers a magnification of 63X and a numerical aperture (NA) of 1.4. The lens is designed using apochromatic correction for reduced chromatic aberration, and the plan correction ensures a flat field of view.

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Lab products found in correlation

Lsm800 confocal microscope, by Zeiss (4 mentions) Lsm 700 confocal microscope, by Zeiss (4 mentions) Imaris, by Oxford Instruments (2 mentions) Lsm 780, by Zeiss (2 mentions) Sc 16377, by Santa Cruz Biotechnology (1 mentions)

5 protocols using 1.4na planapochromat oil objective

Stress Granule Formation Dynamics

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Cells were seeded onto 8-well µ-slides (ibidi USA, Inc.), then infected at an MOI of 10 PFU/cell and incubated at 37°C for the times indicated in the figure legends. The presence of SGs was analyzed either without additional treatment or after induction of SG formation. To induce SGs, cells were treated with 0.75 mM NaAs for 45 min, and then fixed in 4% paraformaldehyde (PFA) in PBS for 20 min at room temperature. Cells were permeabilized with 0.5% Triton X-100 in PBS, blocked with 5 % BSA, and stained with antibodies specific to G3BP1 (gift from Dr. Richard Lloyd), eIF3b (sc-16377, Santa Cruz Biotechnology, Inc.) and TIAR (8509, Cell Signaling Technology), and corresponding fluorescent secondary antibodies. Images were acquired on a Zeiss LSM800 confocal microscope with a 63X 1.4NA PlanApochromat oil objective.
To analyze the effect of ActD-induced transcriptional shutoff on the ability of cells to generate SGs, NIH 3T3 cells in 8-well µ-slides (ibidi USA, Inc.), were incubated in complete media supplemented with ActD (5 µg/ml) for 1, 2, and 4 h. Then, they were treated with NaAs and stained with TIAR- and eIF3b-specific antibodies as described above.

Palchevska O., Dominguez F., Frolova E.I, & Frolov I. (2023). Alphavirus-induced transcriptional and translational shutoffs play major roles in blocking the formation of stress granules. bioRxiv.

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Visualization of Viral Capsid Disassembly

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NIH-3T3 cells were seeded into 8-well Ibidi chambers and either treated or mock-treated with 100 IU/ml of IFN-β for 20 h. Cells were incubated with concentrated virus for 1 h at 4°C to allow virus adsorption to the cells, then washed and incubated for 1 h to 37°C in medium supplemented with 50 μg/ml of cycloheximide to allow entry and nucleocapsid disassembly in the absence of translation and replication of the incoming viral RNAs. Cells were then fixed with 4% PFA and stained using a rat mAb specific to the amino-terminal fragment of capsid protein, which is not exposed in assembled nucleocapsids, and AlexaFluor555-labeled secondary Abs. Nuclei were stained with Hoechst dye. Images were acquired on a Zeiss LSM700 confocal microscope with a 63X 1.4NA PlanApochromat oil objective. Images were assembled in Imaris (Bitplane AG, St. Paul, MN).

Reynaud J.M., Kim D.Y., Atasheva S., Rasalouskaya A., White J.P., Diamond M.S., Weaver S.C., Frolova E.I, & Frolov I. (2015). IFIT1 Differentially Interferes with Translation and Replication of Alphavirus Genomes and Promotes Induction of Type I Interferon. PLoS Pathogens, 11(4), e1004863.

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Quantitative Analysis of Virus Adsorption

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NIH-3T3 cells were seeded in 8-well Ibidi chambers, and either treated or mock-treated with 100 IU/ml of IFN-β for 20 h at 37°C. To allow viral particles adsorption without internalization, cells were incubated with VEEV TC-83 for 1 h at 4°C, washed with cold PBS and immediately fixed with 4% paraformaldehyde (PFA). Adsorbed viral particles were stained using VEEV TC-83-specific mouse Abs (gift of Robert Tesh, UTMB) and AlexaFluor555-labeled secondary Abs. Cell nuclei were stained with Hoechst dye. Images were acquired on a Zeiss LSM700 confocal microscope with a 63X 1.4NA PlanApochromat oil objective. The 3D image stacks were further processed using Huygens Professional (Scientific Volume Imaging, Hilversum, Netherlands) for deconvolution, using experimental PSF, and Imaris for 3D rendering (Bitplane AG, St. Paul, MN). Spot function of Imaris was used for quantitative analysis of the numbers of attached virions.

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Visualizing Microtubule Dynamics in Neurons

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Images were acquired on a Zeiss LSM 800 confocal microscope with a 63x/1.4NA Plan Apochromat oil objective. For spine invasion and comet velocity/abundance data, quick successive time-lapse images were acquired in a single channel (EB3-mNeon) at a rate of 1 frame/3 sec for a duration of 100 frames. During live, time-lapse microscopy, neurons were kept at 37°C in a warmed chamber enclosing the microscope and with a glass ring sealed with silicone grease and a glass coverslip to maintain appropriate CO₂ levels. Fixed cell imaging for collection of acetylated:tyrosinated tubulin data utilized z-stacks that were acquired in red, green, and far-red channels with slice increments of 0.24μm.

Holland E.D., Miller H.L., Millette M.M., Taylor R.J., Drucker G.L, & Dent E.W. (2024). A Methodology for Specific Disruption of Microtubules in Dendritic Spines. bioRxiv.

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Multicolor Microscopy of RNA-Protein Interactions

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Images were acquired on a Zeiss LSM780 spectral microscope running Zen software, with a 63x,1.4NA Plan-Apochromat oil objective at the IBMP microscopy and cellular imaging platform (Strasbourg, France). Excitation and emission settings were spectrally selected among the 4 laser wavelengths available in the microscope (405; 488; 561; and 633 nm) according to the secondary antibody used. Image processing (contrast, brightness and merges) were performed with ImageJ 1.43m software ( 49). An additional macro allowing the multichannel profile plot has been designed by Jerome Mutterer from the Microscopy platform. Percentage of cells showing a co-localization between FISH signal (A3G mRNA) and stress or P-Body markers were counted on subsets of 100 cells (n=3).

Libre C., Seissler T., Guerrero S., Batisse J., Verriez C., Stupfler B., Gilmer O., Cabrera-Rodríguez R., Cimarelli A., Valenzuela-Fernández A., Marquet R., & Etienne L. (2021). A conserved uORF regulates APOBEC3G translation and is targeted by HIV-1 Vif protein to repress the antiviral factor.

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