Emgc15

Manufactured by BBI Solutions

Sourced in United Kingdom

The EMGC15 is a laboratory equipment designed for electrical measurement and analysis. It provides precise electrical signal generation and data acquisition capabilities for various scientific and research applications.

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Lab products found in correlation

Tecnai f30, by Thermo Fisher Scientific (1 mentions) Fei tecnai f20, by Thermo Fisher Scientific (1 mentions) Xplore 3d tem tomography software, by Thermo Fisher Scientific (1 mentions) Ultracut uct, by Leica (1 mentions) Emgc30, by BBI Solutions (1 mentions) Emgc10, by BBI Solutions (1 mentions) Emgc20, by BBI Solutions (1 mentions) Em uc7 ultramicrotome, by Leica (1 mentions) Fei tecnai f20 electron microscope, by Thermo Fisher Scientific (1 mentions)

3 protocols using emgc15

Electron Microscopy of Fly Receptors

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The serial sections (250 nm) were prepared using a Leica Ultracut UCT or Leica EM UC7 microtome and collected on Formvar-coated copper slot grids. For haltere receptors, cross-sections were collected to facilitate data after processing, e.g., microtubule tracing and alignment. For leg receptors, we collected consecutive lateral sections in most cases because the exoskeleton of fly legs often separated from the embedding resin, and the cross-sections, usually with a small tissue area, had a large chance of getting lost or distorted. Post-staining was performed with 2% uranyl acetate in 70% methanol, followed by 0.4% lead citrate (EMS; 17900). 15-nm gold nanoparticles (BBI Solutions; EMGC15) were added to both sides of the sections as the fiducial markers. The dual-axis tilt series ranging from −60° to 60° were acquired using a FEI Tecnai F30 or FEI Tecnai F20 electron microscope (Thermo Fisher Scientific; formerly FEI). An FEI Tecnai F30 electron microscope was equipped with an Axial Gatan US1000 CCD camera and controlled with SerialEM automated acquisition software (Mastronarde, 2005 (link)). An FEI Tecnai F20 electron microscope was equipped with a Gatan US4000 (895) CCD camera and controlled with FEI Xplore 3D TEM tomography software.

Sun L., Cui L., Liu Z., Wang Q., Xue Z., Wu M., Sun T., Mao D., Ni J., Pastor-Pareja J.C, & Liang X. (2020). Katanin p60-like 1 sculpts the cytoskeleton in mechanosensory cilia. The Journal of Cell Biology, 220(1), e202004184.

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SH-SAW Biosensor for CRP Detection

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A sandwich assay to detect C-reactive protein (CRP) was employed to evaluate SH-SAW sensor measurement characteristics in specimens with different molecular sizes. The sandwich assay was performed by reacting with targeting proteins. In the sandwich assay, we used CRP with capture antibodies. Subsequently, secondary antibodies were used for amplifying the sensor output signals reacted with the CRPs captured in the previous step. The capture antibodies were immobilized onto the sensing area of the SH-SAW biosensor using a crosslinking chemical (dithiobis[succinimidylpropionate]), DSP, #22585, Thermo Scientific, Waltham, MA, USA). The HyTest (Turku, Finland) 4C28-CRP30 monoclonal antibody was used as the capture antibody. We used recombinant CRP (CRP Calibrator L-710, SHINO-TEST CORP., Tokyo, Japan) in a series of measurements. The HyTest 4C28-CRP135 monoclonal antibody was used as the secondary antibody. The secondary antibodies were conjugated with gold nanoparticles with diameters of D = 10, 15, 20, and 30 nm (EMGC10, EMGC15, EMGC20, and EMGC30, BBI Solutions, Crumlin, UK) to vary the molecular size. A structural diagram of the antigen, antibody, and gold nanoparticles on the SH-SAW biosensor surface is shown in Figure 3.

Kano K., Yatsuda H, & Kondoh J. (2021). Evaluation of Shear Horizontal Surface Acoustic Wave Biosensors Using “Layer Parameter” Obtained from Sensor Responses during Immunoreaction. Sensors (Basel, Switzerland), 21(14), 4924.

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Electron Tomography Sample Preparation

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The sections (250 nm) were acquired using a Leica EM UC7 ultramicrotome (Leica) and collected on Formvar-coated copper slot grids, as previously described (Sun et al., 2021 (link)). After that, staining was performed with 2% uranyl acetate in 70% methanol and then with 0.4% lead citrate (17900; EMS). Commercial 15-nm gold particles (EMGC15; BBI Solutions) were added to both sides of the sections as fiducial markers. Dual tilt-axis series ranging from −60° to +60° were collected using an FEI Tecnai F20 electron microscope (Thermo Fisher Scientific), which was equipped with a Gatan US4000 (895) CCD camera and controlled with the FEI Xplore 3D TEM tomography software.

Song X., Cui L., Wu M., Wang S., Song Y., Liu Z., Xue Z., Chen W., Zhang Y., Li H., Sun L, & Liang X. (2023). DCX-EMAP is a core organizer for the ultrastructure of Drosophila mechanosensory organelles. The Journal of Cell Biology, 222(10), e202209116.

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