Test: Difference between revisions

Revision as of 10:32, 24 September 2011

sterilized 250 ml centrifuge bottles
sterilized 1.5 ml microfuge tubes (at least 50)
sterilized 100 ml LB in 250ml flask
filter sterilized 100 ml chilled RF1 per 300 ml E. coli culture (or 33 ml per 100 ml culture)
filter sterilized 12 ml chilled RF2 per 300 ml E. coli culture (or 4 ml per 100 ml culture)
Prepare RF1 and RF2 and store at 4oC. Stable for > 1yr:

Combine for 1 L:		[final]
Rubidium Chloride(RbCl, sigma R2252)	12.1 g	100 mM
Manganese(II) chloride tetrahydrate (MnCl₂ 4H₂O, sigma M3634)	9.9 g	50 mM
Potassium acetate	2.94g or 30 ml of 1M stock, pH 7.5	30 mM
Calcium chloride dihydrate CaCl₂ 2H₂O	1.48 g	10 mM
Glycerol	150 g or 120ml	15% wt/vol

Adjust final pH to 5.8 using 0.2M acetic acid (maybe 400ul for 33ml). Filter-sterilize.
Glacial acetic acid: 1.049g cm-3 / 60.05g mol-1 = 17.47 M

Combine for 1 L:		[final]
MOPS (sigma M1254)	2.1g	10 mM
Rubidium Chloride(RbCl, sigma R2252)l	1.2 g	10 mM
Calcium chloride dihydrate (CaCl2)₂ 2H₂O	11 g	75 mM
Glycerol	150 g or 120ml	15% wt/vol

Put RF1, RF2, centrifuge tube and eppendorf tubes on ice
Inoculate 1ml of over night culture to 100ml of LB in flask
Monitor OD600 from initial until 0.2 to 0.6. [0.4 to 0.55 optimum]
Transfer culture to centrifuge bottle and chill on ice 10 -15 min.
Pellet cells by centrifugation at 2700g (4200rpm in an F14 6x250y rotor) for 10 min at 4oC.
Decant liquid and stand the bottle in an inverted position for < 1 min
resuspend in 1/3 original volume (33 ml) chilled RF1 buffer gently.
Optimally, resuspend using a 25-ml disposable pipet.
- RbCl will permanently stain glass pipets.
- Note: resuspend gently, DO NOT VORTEX.
  - Want to maintain pili structures on surface of E coli cell.
Continue mixing until cells are evenly resuspended and no clumps are visible.
Incubate cells/RF1 on ice for 15 min.
Pellet cells by centrifugation at 580g (1950rpm in an F14 6x250y rotor) for 15 min at 4oC.
Decant liquid and gently resuspend in 1/25 original volume (4 ml) chilled RF2 buffer.
Incubate cells/RbCl buffer 2 on ice for 15min.
Get eppendor tubes and box ready.
Aliquot 100 ul each into chilled 1.5 ml eppendorf tubes and freeze on dry ice (or ice).
Store at -80C.

Dilute control plasmid DNA (known DNA conc) to 1 ng/ul and transform using 1 ul.
Thaw competent cells on ice.
Compare previous lot to current lot
Combine 1ul of diluted pDNA and 100 ul competent cells.
Incubate on ice 30-60 min (40 min optimum).
Heat shock at 42oC for 90 sec, place on ice 5 - 15 min.
Add 1 ml LB and incubate at 37oC for 30-60 min (45 min).
Plate 100 ul onto antibiotic plate.
Dilute the culture 10 times and plate 100 ul onto antibiotic plate.
Dilute the culture 100 times and plate 100 ul onto antibiotic plate.
Count the numbers of colonies in the next morning

@@ Line 16: / Line 16: @@
 | Rubidium Chloride(RbCl, sigma R2252)||12.1 g||100 mM
 |-
-| Manganese(II) chloride tetrahydrate (MnCl24H2O, sigma M3634)<sub>2</sub> 4H<sub>2</sub>O||9.9 g||50 mM
+| Manganese(II) chloride tetrahydrate (MnCl<sub>2</sub> 4H<sub>2</sub>O, sigma M3634)||9.9 g||50 mM
 |-
 | Potassium acetate||2.94g or 30 ml of 1M stock, pH 7.5||30 mM
 |-
-| Calcium chloride dihydrate (CaCl2)<sub>2</sub> 2H<sub>2</sub>O||1.48 g||10 mM
+| Calcium chloride dihydrate CaCl<sub>2</sub> 2H<sub>2</sub>O||1.48 g||10 mM
 |-
 | Glycerol||150 g or 120ml||15% wt/vol
@@ Line 26: / Line 26: @@
 *Adjust final pH to 5.8 using 0.2M acetic acid (maybe 400ul for 33ml).  Filter-sterilize.
 *Glacial acetic acid: 1.049g cm-3 / 60.05g mol-1 = 17.47 M
 =====RF2=====
 {| {{table}}