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ES-D3 [D3]
ES-D3 [D3]
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貨期:
編號:B164418
品牌:Mingzhoubio

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產品名稱 ES-D3 [D3]
商品貨號 B164418
Organism Mus musculus, mouse
Tissue embryo
Cell Type embryonic multipotent stem cell
Product Format frozen
Morphology spherical colony
Culture Properties adherent
Biosafety Level 1

Biosafety classification is based on U.S. Public Health Service Guidelines, it is the responsibility of the customer to ensure that their facilities comply with biosafety regulations for their own country.

Age embryo, blastocyst
Strain 129S2/SvPas
Applications

The cells spontaneously differentiate into embryonic structures in the absence of a feeder layer or conditioned medium. 

Undifferentiated cells can be genetically modified by gene targeting techniques.


Storage Conditions liquid nitrogen vapor phase
Derivation
The clonal embryonic stem cell line ES-D3 was derived from blastocysts of a 129S2/SvPas mouse.
Comments

The cells spontaneously differentiate into embryonic structures in the absence of a feeder layer or conditioned medium.  They can be maintained in the undifferentiated state by frequent subculture (every 2 to 3 days) on confluent feeder layers (STO cells) arrested with Mitomycin-C (see ATCC 56-X.2; MITC- STO cells).

Fibroblast-like feeder layer cells are present in the ampules sent by ATCC.

Note: These ES-D3 cells are not germline competent. 

Complete Growth Medium

The base medium for this cell line is Mouse ES Cell Basal Medium (ATCC SCRR-2011). To make the complete medium add the following components to 500 mL base medium and mix by swirling gently: 

  • 1 mL (0.1 mM final concentration) 2-mercaptoethanol (Life Technologies Cat. No. 21985-023)
  • 56 to 84 mL (10% to 15% final concentration) ES-Cell Qualified FBS (ATCC SCRR-30-2020)  
  • 1,000 U/mL mouse leukemia inhibitory factor (LIF) (Millipore Cat. No. ESG1107). *NOTE: LIF can be omitted from the culture media as long as 56-X.2 (MITC-treated STO) is used as a feeder layer since these cells produce LIF.

Complete Growth Medium for Mouse ES Cells is stable for 14 days when stored at 2°C to 8°C.

Subculturing
Feeder Layer Preparation

56-X.2 cells should be seeded one day prior to use.

The medium to use when initiating the feeder layer is DMEM with 10% FBS.  This medium is prepared by aseptically combining:

56 mL FBS (ATCC  30-2020)

500 mL DMEM (ATCC 30-2002)

  1. Thaw the frozen feeder cell vial(s) per the ATCC product sheet. Wipe, spray, and/or soak the ampoule(s) with 70% ethanol (or equivalent disinfectant) and allow the ampoule(s) to dry.  
  2. Aseptically open the ampoule(s). Withdraw cells and transfer to a sterile 15 mL centrifuge tube. If more than one ampoule was thawed, the contents may be pooled into a single centrifuge tube. 
  3. Slowly add pre warmed feeder layer medium to the centrifuge tube by running 10 ± 2 mL down the side. Centrifuge the tube at 275 ± 125 x g for 10 ± 2 minutes.  Aseptically remove and discard the supernatant from the centrifuge tube. 
  4. Resuspend the cell pellet with feeder layer medium so that a final volume of 10 mL is achieved. Count the resuspended cells. Calculate the volumes of cell suspension and feeder layer medium needed to plate the feeder. Aseptically transfer the calculated volumes of cell suspension and feeder layer medium to appropriate vessel(s). 
  5. Incubate the culture in a CO2 incubator set to 5% ± 1% CO2 and 35.0 to 37.0 °C until ready for use.
  6. Plate irradiated (12,000 Rads) STO feeder layer at approximately 8.0 X 10e4 viable cells/ cm2 at least one day before plating the ES cells. After one day of incubation the vessel(s) are ready for use in CRL-1934 cultures.

Initiation of CRL-1934 Cell Culture

  1. Thaw a vial of CRL-1934 cells per the ATCC product sheet - Handling Procedure for Frozen Cells. Wipe, spray, and/or soak the ampoule(s) with 70% ethanol (or equivalent disinfectant) and allow the ampoule(s) to dry. 
  2. Aseptically open the ampoule(s). Withdraw cells and transfer to a sterile 15 mL centrifuge tube. 
  3. Slowly add pre-warmed complete growth medium to the centrifuge tube by running 12 ± 2 mL down the side. Centrifuge the tube at 275 ± 125 x g for 10 ± 2 minutes. Aseptically remove and discard the supernatant from the centrifuge tube. 
  4. Resuspend the cell pellet with 10 mL of culture medium. Aseptically transfer the contents of the centrifuge tube to a T75 flask containing the prepared 56-X.2 feeder layer. Add sufficient culture medium to the flask to bring the final volume to 15mL. NOTE: Remove the feeder layer media from the flask before adding the CRL-1934 cell suspension.
  5. Incubate the culture in a CO2 incubator set to 5% ± 1% CO2 and 35.0 to 37.0 °C. Observe and examine the culture every 1-2 days. If a fluid renewal/addition is needed, perform the fluid renewal/addition. Aseptically remove the culture medium from the flask and discard.  Add an equivalent volume of fresh culture medium to the flask.  Alternatively, perform a fluid addition by adding fresh culture medium to the flask without removing the existing medium. Return the culture to the incubator after fluid renewal/addition.

Subculture before the CRL-1934 colonies are close to or touching each other. The CRL-1934 cells should never become 100% confluent (although the 56-X.2 feeder cells may be 100% confluent). Attached cells are subcultured using 0.25% Trypsin 0.53 mM EDTA (ATCC 30-2101). The action of the 0.25% Trypsin – 0.53mM EDTA (ATCC 30-2101) is halted by adding culture medium to the detached cells. A split ratio of 1:3 to 1:10 is used when subculturing.


Cryopreservation
Complete growth medium supplemented with 5% (v/v) DMSO
Cell culture tested DMSO is available as ATCC Catalog No. 4-X.
Culture Conditions
Atmosphere: air, 95%; carbon dioxide (CO2), 5%
Temperature: 37°C
Name of Depositor T Doetschman
Deposited As Mus musculus
References

Doetschman TC, et al. The in vitro development of blastocyst-derived embryonic stem cell lines: formation of visceral yolk sac, blood islands and myocardium. J. Embryol. Exp. Morphol. 87: 27-45, 1985. PubMed: 3897439

Williams RL, et al. Myeloid leukaemia inhibitory factor maintains the developmental potential of embryonic stem cells. Nature 336: 684-687, 1988. PubMed: 3143916

Gossler A, et al. Transgenesis by means of blastocyst-derived embryonic stem cell lines. Proc. Natl. Acad. Sci. USA 83: 9065-9069, 1986. PubMed: 3024164

Doetschman T, et al. Targeted mutation of the Hprt gene in mouse embryonic stem cells. Proc. Natl. Acad. Sci. USA 85: 8583-8587, 1988. PubMed: 3186749

Cross References

Nucleotide (GenBank) : U20290 Mus musculus V-1 protein mRNA, complete cds.

Nucleotide (GenBank) : NM_007795 Mus musculus cardiotrophin 1 (Ctf1), mRNA.

Nucleotide (GenBank) : NM_008098 Mus musculus granule cell differentiation protein (Gcdp), mRNA.

梅經理 17280875617 1438578920
胡經理 13345964880 2438244627
周經理 17757487661 1296385441
于經理 18067160830 2088210172
沈經理 19548299266 2662369050
李經理 13626845108 972239479
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