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Grids for transmission electron microscopy

Name: Grids for transmission electron microscopy
Brand: SIGMA

grid size 200 mesh × 125 μm pitch, copper

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NACRES:

MA.01

UNSPSC Code:

41100000

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Properties

material

copper

description

Regular grids with center mark and solid border

packaging

vial of 100 grids

diam.

3.05 mm

grid size

200 mesh × 125 μm pitch

hole W

97 μm

open area size

55%

Description

Application

Grids for transmission electron microscopy has been used to collect ultrafine sections of murine macrophage cell line during transmission electron microscopy (TEM).

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This Item	G2278	G1528	G5401
G4776 Grids for transmission electron microscopy	G2278 Grids for transmission electron microscopy	G1528 Grids for transmission electron microscopy	G5401 Grids for transmission electron microscopy
packaging vial of 100 grids	packaging vial of 25 grids	packaging vial of 100 grids	packaging vial of 100 grids
material copper	material nickel	material nickel	material gold
grid size 200 mesh × 125 μm pitch	grid size 1000 mesh × 25 μm pitch	grid size 100 mesh × 250 μm pitch	grid size 400 mesh × 62 μm pitch
diam. 3.05 mm	diam. 3.05 mm	diam. 3.05 mm	diam. 3.05 mm
open area size 55%	open area size 55%	open area size 69%	open area size 44%
description Regular grids with center mark and solid border	description Thin-bar grids	description Regular grids with center mark and solid border	description Regular grids with center mark and solid border

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Carbon nanotubes, but not spherical nanoparticles, block autophagy by a shape-related targeting of lysosomes in murine macrophages.

Vanessa Cohignac et al.

Autophagy, 14(8), 1323-1334 (2018-06-26)

Nanoparticles (NPs) can be toxic, depending on their physico-chemical characteristics. Macroautophagy/autophagy could represent a potential underlying mechanism of this toxicity. We therefore set up a study aimed to characterize in depth the effects, on autophagy, of macrophage exposure to NPs

Global Trade Item Number

SKU	GTIN
G4776-1VL	04061838050502