Cell line Authentication kit

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Get tips on using miRNeasy FFPE Kit to perform RNA isolation / purification Tissue - human kidney tissue

Products Qiagen miRNeasy FFPE Kit

Get tips on using RNeasy Mini Kit to perform RNA isolation / purification Tissue - human kidney tissue

Products Qiagen RNeasy Mini Kit

Get tips on using Bacteria Live/Dead Staining Kit to perform Live / Dead assay bacteria - Escherichia coli

Products PromoCell Bacteria Live/Dead Staining Kit

Get tips on using Bacteria Live/Dead Staining Kit to perform Live / Dead assay bacteria - Corynebacterium glutamicum

Products PromoKine Bacteria Live/Dead Staining Kit

Get tips on using Bacteria Live/Dead Staining Kit to perform Live / Dead assay bacteria - Bacillus subtilis

Products PromoKine Bacteria Live/Dead Staining Kit

Get tips on using Click-iT™ Plus EdU Pacific Blue™ Flow Cytometry Assay Kit to perform Cell cycle assay human - A549

Products Thermo Fisher Scientific Click-iT™ Plus EdU Pacific Blue™ Flow Cytometry Assay Kit

Get tips on using Click-iT™ Plus EdU Pacific Blue™ Flow Cytometry Assay Kit to perform Cell cycle assay human - SKOV3

Products Thermo Fisher Scientific Click-iT™ Plus EdU Pacific Blue™ Flow Cytometry Assay Kit

Human embryonic stem cells (hESCs) and induced pluripotent stem cells (iPSCs) have been greatly used for studies on embryonic development and cell differentiation.iPSCs provide a stable source for either self-renewal or differentiation into suitable cells when cultured in a particular environment. Pluripotent cell culture was originally started by deriving cells from inner cell mass (ICM) from pre-implanted blastocysts, these were called embryonic stem cells. These cells after isolation can be grown on traditional extracellular matrices (like mouse embryonic fibroblasts, MEFs) or feeder-free culture systems. DMEM/F12 has been the most commonly used basal media in the culture of pluripotent cells. These cells are cultured at normal atmospheric oxygen levels, 21%, however, some studies have proposed that 4% oxygen tension may be better for hESC growth. Higher D-glucose concentration (4.2g/l) and osmolarity (320mOsm) that mimics the natural environment of embryonic tissue are optimal for the growth of hESCs. Supplements like N2 and/or B-27, in the presence of growth factors like bFGF, have been shown to increase pluripotency of these cells. bFGF, FGF2 and other ligands of receptor tyrosine kinases like IGF are also required or maintain self-renewal ability of these cells. TGF𝛃1, by its activation of SMAD2/3 signalling, also represses differentiation of iPSCs. Other compounds like ROCK inhibitors reduce blebbing and apoptosis in these cells to maintain their clonogenicity. However, an inhibitor for LIF (leukaemia inhibitory factor, which is one of the pluripotent genes) has an opposing effect. Therefore, it is important to understand the culture conditions and media composition that affect downstream signalling in hESCs or iPSCs that may lead to their differentiation.

Cell culture media Stem cell culture media h-medial pallium induction and culture

Get tips on using Gentra Puregene Blood Kit to perform DNA isolation / purification Cells - Primary cells Bone marrow mononuclear cells

Products Qiagen Gentra Puregene Blood Kit

Get tips on using miRCURY RNA Isolation Kit to perform RNA isolation / purification Cells - immortalized A549

Products Exiqon miRCURY RNA Isolation Kit

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