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G418

Antibiotic for selecting transfected mammalian cells

G418

Antibiotic for selecting transfected mammalian cells

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Antibiotic for selecting transfected mammalian cells
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Overview

Antibiotic G418 is an aminoglycoside related to gentamicin and is toxic to bacteria, yeast, higher plants, mammalian cells, protozoans, and helminths. G418 binds to 80S ribosomes in prokaryotic and eukaryotic cells and inhibits protein synthesis, resulting in cell death. Resistance to the antibiotic is conferred by aminoglycoside-3-phosphotransferase. Vectors containing the G418 resistance gene (neo) are commonly used for transfecting eukaryotic cells, with selection of transfected cells achieved by culturing them in the presence of G418. Cells may exhibit variable resistance to the antibiotic and can take up to a week to die (adherent cells may be more sensitive).

The G418 antibiotic is suitable for use in cell culture for the selection and maintenance of G418-resistant clones when using ClonaCell鈩-TCS Medium (Catalog #03814), ClonaCell鈩-CHO CD Medium (Catalog #03815), ClonaCell鈩-CHO ACF Medium (Catalog #03816), ClonaCell鈩⒙瑿HO CD Liquid Medium (Catalog #03817), or other cell culture media.
Cell Type
CHO Cells, Hybridomas
Species
Mouse
Application
Hybridoma Generation, Toxicity Assay
Area of Interest
Cell Line Development, Hybridoma Generation
CAS Number
108321-42-2

Protocols and Documentation

Find supporting information and directions for use in the Product Information Sheet or explore additional protocols below.

Document Type
Product Name
Catalog #
Lot #
Language
Document Type
Product Name
Catalog #
03812
Lot #
All
Language
English
Document Type
Product Name
Catalog #
03812
Lot #
All
Language
English

Applications

This product is designed for use in the following research area(s) as part of the highlighted workflow stage(s). Explore these workflows to learn more about the other products we offer to support each research area.

Resources and Publications

Educational Materials (1)

Brochure

Publications (1)

Bioengineered niches that recreate physiological extracellular matrix organisation to support long-term haematopoietic stem cells H. Donnelly et al. Nature Communications 2024 Jul

Abstract

Long-term reconstituting haematopoietic stem cells (LT-HSCs) are used to treat blood disorders via stem cell transplantation. The very low abundance of LT-HSCs and their rapid differentiation during in vitro culture hinders their clinical utility. Previous developments using stromal feeder layers, defined media cocktails, and bioengineering have enabled HSC expansion in culture, but of mostly short-term HSCs and progenitor populations at the expense of naive LT-HSCs. Here, we report the creation of a bioengineered LT-HSC maintenance niche that recreates physiological extracellular matrix organisation, using soft collagen type-I hydrogels to drive nestin expression in perivascular stromal cells (PerSCs). We demonstrate that nestin, which is expressed by HSC-supportive bone marrow stromal cells, is cytoprotective and, via regulation of metabolism, is important for HIF-1伪 expression in PerSCs. When CD34+ve HSCs were added to the bioengineered niches comprising nestin/HIF-1伪 expressing PerSCs, LT-HSC numbers were maintained with normal clonal and in vivo reconstitution potential, without media supplementation. We provide proof-of-concept that our bioengineered niches can support the survival of CRISPR edited HSCs. Successful editing of LT-HSCs ex vivo can have potential impact on the treatment of blood disorders. The ability to maintain blood stem cells (HSCs) in vitro would allow us to provide better therapies for blood diseases. Here, the authors report that polymer-organised extracellular proteins, coupled to soft environments mimicking bone marrow stiffness, allow stromal cells to maintain HSCs in vitro.