TC media recipes

N3 media

Used for neuronal differentiation during direct conversion.

  • Total volume: 500 mL

Component

%

Volume

Glutamax (1%)

1%

5 mL

N2 (100x stock)

100x stock

5 mL

B27 (50x stock)

50x stock

10 mL

Pen/Strep (1%) (optional)

1%

5 mL

FBS (optional)

2%

10 mL

DMEM F12

500 mL

Add the following small molecules to small volumes immediatly before media addition, to a final concentration of 10 ng/mL:

  • BDNF, from 1,000x stock (10,000 ng/mL)

  • CNTF, from 1,000x stock (10,000 ng/mL)

  • GDNF, from 1,000x stock (10,000 ng/mL)

  • FGF, from 10,000x stock (100,000 ng/mL)

  • RepSox, if RR, from 1000x stock (7.5mM)

Note

  1. 200mM glutamine is the same as Glutamax

  2. We do not usually use FBS or Pen/Strep

  3. Wrap N3 in foil after making

MEF media

Used for culturing MEFs and other fibroblasts.

Total volume: 500 mL

Component

%

Volume

FBS

10%

50 mL

Pen/Strep (optional)

1%

5 mL

DMEM

add to 500mL

Breast cancer 1 media

Use for culturing the LM2, BT-20, and MDA-MB-468 cell lines.

Component

Concentration

Volume / 50 mL

DMEM + 10% FBS

Base

Use MEF media

Anti-Anti

1%

500 uL

Breast cancer 2 media

Use for culturing the HS 578T and BT-549 cell lines.

Component

Concentration

Volume / 50 mL

DMEM + 10% FBS

Base

Use MEF media

PSG

1%

500 uL

Insulin

10 ug/mL

125 uL of 4 mg/mL stock

Breast cancer 3 media

Use for culturing the MDA-MD-231 cell line.

Component

Concentration

Volume / 50 mL

DMEM + 10% FBS

Base

Use MEF media

PSG

1%

500 uL

Breast cancer 4 media

Use for culturing the SUM159 cell line.

Component

Concentration

Volume / 50 mL

F12

Base

47 mL

FBS

5%

2.5 mL

Anti-anti

1%

500 uL

Insulin

5 ug/mL

62.5 uL of 4 mg/mL stock

Hydrocortisone

1 ug/mL

EGF

20 ng/mL

1 uL of 1 mg/mL stock

Epithelial cell 1 media

Use for culturing the NCI-H1299 human lung cancer cell line.

Component

Concentration

RPMI + 10% FBS

Base

Epithelial cell 2 media

Use for culturing the SAOS-2 human osteosarcoma cell line.

Component

Concentration

McCoy’s + 15% FBS

Base

Glia media

Used for culturing glia cells

Total volume: 500 mL

Component

%

Volume

Horse serum

10%

50 mL

Glucose

20%

100 mL

MEM

70%

350 mL

Sorting/Collection media

Used for cell sorting. Use DMEM/F12 for flow sorting and DMEM/F12 + 10% FBS for collection to help make cells happier. It is possible to use whatever though because you will have to spin-down and resuspend in the correct media (i.e. N3) anyways. You will want to include Pen/Strep as it will greatly reduce the amount of contamination.

Total volume: 50 mL

Component

%

Volume

FBS (for collection only)

10%

5 mL

DMEM/F12

89%

44.5 mL

100X Pen/Strep

1%

500 µL

Motor neuron dissociation media

Used for dissociating iMNs or primary motor neurons (embMN) harvested from spinal cords for plating/sorting. Add 50 µL/96-well, let sit in 37°C for ~15 min. Lightly tap plae to see if cells are dissociating.

Total volume: 6 mL (enough for 1x96-well)

Component

Volume

Papain

1 vial (>= 100 U/vial)

DNAse

1 vial (>= 1,000 U/vial)

DMEM/F12

6 mL

Freezing media

Component

Volume (1 mL)

Final Concentration

FBS (or DMEM/10% FBS)

900 µL

90%

DMSO

100 µL

10%

  • It is easy to keep a 4°C stock of (80% FBS/20% DMSO) then use 500 µL 80%/20% FBS/DMSO + 500 µL DMEM/FBS cell solution

HEPES-buffered DMEM

For use during lentivirus or retrovirus production in HEK293T cells. We use HEPES Sigma-Aldrich (H3375).

1M HEPES stock solution (filter sterilize with 0.22 µm filter after pH-ing)

Component

Concentration

Amount/50 mL

HEPES

1M

13.82 g

DI H2O

main solvent

50 mL

NaOH

to pH 7.0

Note

When NBW did this on 7/10/23, I did 41.46 g HEPES + 150 mL water. The HEPES takes up a lot of volume so I would dissolve in 100 mL ELGA-filtered water, then check volume and increase to 150 mL.

At the beginning, pH = 5.45 and I had to add 8.9 mL 4N NaOH to get to pH = 7.00.

HEPES-buffered DMEM

Component

Concentration

Amount/50 mL

Bottle

DMEM + 10% FBS

main Component

48.75 mL

550 mL

Sterile 1M HEPES

25 mM

1.25 mL

14.10 mL