D5030
Dulbecco′s Modified Eagle′s Medium
Without glucose, L-glutamine, phenol red, sodium pyruvate and sodium bicarbonate, powder, suitable for cell culture
Synonyme(s) :
DME, DMEM
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About This Item
NACRES:
NA.75
UNSPSC Code:
12352207
Nom du produit
Dulbecco′s Modified Eagle′s Medium, Without glucose, L-glutamine, phenol red, sodium pyruvate and sodium bicarbonate, powder, suitable for cell culture
form
powder
technique(s)
cell culture | mammalian: suitable
components
phenol red: no
NaHCO3: no
L-glutamine: no
HEPES: no
glucose: no
sodium pyruvate: no
shipped in
ambient
storage temp.
2-8°C
Quality Level
Application
Dulbecco′s Modified Eagle′s Medium has been used:
- to culture the isolated flexor digitorum brevis (FDB) fibers to measure exogenous fatty acid (FA) utilization as part of oxygen consumption rate (OCR) measurements
- to culture the isolated tibialis anterior (TA) muscle fibers for lactate measurements
- to culture the human bone marrow mesenchymal stem cells for osteogenic differentiation to prepare a low-glucose medium to culture human hepatocellular carcinoma HepG2 cells
General description
Dulbecco′s Modified Eagle′s Medium (DME) is a modification of Basal Medium Eagle (BME) that has been formulated with a 4-fold higher concentration of amino acids and vitamins. It includes additional supplementary components. The DME formula, first reported for culturing embryonic mouse cells, contained 1,000 mg/L of glucose. Modifying the medium with 4,500 mg/L glucose is optimal for culturing certain cell types.
The most basic formulation offered. This formulation is used by investigators who want to start with the essential components of DME, and have the flexibility to optimize the formula for their own application.
Preparation Note
Formulated to contain 8.3 grams of powder per liter of medium.
Supplement with 1.0 g/L glucose, 0.584 g/L L-glutamine, 3.7 g/L sodium bicarbonate.
signalword
Warning
hcodes
Hazard Classifications
Eye Irrit. 2
Classe de stockage
11 - Combustible Solids
wgk
WGK 3
flash_point_f
Not applicable
flash_point_c
Not applicable
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Eunyong Ahn et al.
Molecular systems biology, 13(11), 953-953 (2017-11-08)
Cellular metabolic demands change throughout the cell cycle. Nevertheless, a characterization of how metabolic fluxes adapt to the changing demands throughout the cell cycle is lacking. Here, we developed a temporal-fluxomics approach to derive a comprehensive and quantitative view of
Abhinav Joshi et al.
BMC biology, 18(1), 10-10 (2020-01-29)
The molecular chaperone TRAP1, the mitochondrial isoform of cytosolic HSP90, remains poorly understood with respect to its pivotal role in the regulation of mitochondrial metabolism. Most studies have found it to be an inhibitor of mitochondrial oxidative phosphorylation (OXPHOS) and
Nataly Stylianou et al.
Oncogene, 38(7), 913-934 (2018-09-09)
The propensity of cancer cells to transition between epithelial and mesenchymal phenotypic states via the epithelial-mesenchymal transition (EMT) program can regulate metastatic processes, cancer progression, and treatment resistance. Transcriptional investigations using reversible models of EMT, revealed the mesenchymal-to-epithelial reverting transition
Zhongjie Fu et al.
EMBO molecular medicine, 10(1), 76-90 (2017-11-29)
The neural cells and factors determining normal vascular growth are not well defined even though vision-threatening neovessel growth, a major cause of blindness in retinopathy of prematurity (ROP) (and diabetic retinopathy), is driven by delayed normal vascular growth. We here
Charlotte Petersen et al.
Scientific reports, 7(1), 13101-13101 (2017-10-14)
Adipose tissue takes up glucose and releases lactate, thereby contributing significantly to systemic glucose and lactate homeostasis. This implies the necessity of upregulation of net acid and lactate flux capacity during adipocyte differentiation and function. However, the regulation of lactate-
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