Preparation of Solutions

Preparation of 8% DNA Sequencing Gel

Components	Cat. No	Amount to use
20% Acrylamide
Acrylamide BPE170		96,5g
Bis-acrylamide	BPE71	3,35g
Urea	BPE169	233,5g
5X TBE	—	100mL
H2O	—	to 500mL
Urea Mix
Urea	BPE169	233,5g
5X TBE	—	100mL
H2O	—	to 500mL
5X TBE
Tris Base	BPE152	54g
Boric acid	BPE168	27,5g
0,5M EDTA (pH 8,0)	BPE120	20mL
H2O —		to 1L
To make an 8% sequencing gel, mix the following in a small flask:
20% Acrylamide mix	20mL
Urea mix	30mL
10% ammonium persulfate	0,4mL
(freshly dissolved in water)

For the solution into the barrel of a 50mL syringe and add 50μL of TEMED (BPE150). Mix
rapidly and inject the contents of the syringe (no needle should be used) into a preformed
sequencing gel mould.

Note: Convenient, ready made Fisher BioReagent solutions for key components are also
available. See also Tris-glycine, TBE buffers, acrylamide solutions and water.

Preparation of Tris•CI [Tris(hydroxymethyl)aminomethane] Stock Solutions (1)

Method A

Dissolve 121g Tris Base in 800mL H2O
Adjust solution to desired pH with concentrated HCl
Mix and add H2O to 1L.

Method B

Prepare a 0.1M Tris Base solution: add H20 to 12.1g Tris Base to a total volume of 1L
From the chart below, obtain the volume of 0.1M HCl needed to produce the desired pH, and add to 100mL of 0.1M Tris Base
Mix well

pH,	0,1M	pH,	0,1M	pH,	0,1M
25°C	HCl	25°C	HCl	25°C	HCl
7,2	89,4mL	7,8	69,0mL	8,4	34,4mL
7,3	86,8	7,9	64	8,5	29,4
7,4	84	8	58,4	8,6	24,8
7,5	80,6	8,1	52,4	8,7	20,6
7,6	77	8,2	45,8	8,8	17
7,7	73,2	8,3	39,8	8,9	14

Note: The pH of Tris buffers changes significantly with temperature, decreasing approximately 0.028 pH units per 1°C. Tris-buffered solutions should be adjusted to the desired pH at the temperature at which they will be used. Since the pKa of Tris is 8.08, Tris should not be used as a buffer below pH~7.2 or above pH~9.0.

(1) Convenient, ready made Fisher BioReagent solutions are also available.

Preparation of Polyacrylamide Stacking and Separating Gels (SDS-PAGE)

Separating gel (Total volume 15 mL)(1)
Final % acrylamide in gel(2)	5	6	7	7,5	8	9	10	12	13	15
Stock solutions(3)
30% Acrylamide/0,8% Bis-acrylamide	2,50mL	3,00mL	3,50mL	3,75mL	4,00mL	4,50mL	5,00mL	6,00mL	6,50mL	7,50mL
4X Tris Cl, pH 8,8	3,75	3,75	3,75	3,75	3,75	3,75	3,75	3,75	3,75	3,75
H2O(4) 10% SDS	8,60 0,15	8,10 0,15	7,60 0,15	7,35 0,15	7,10 0,15	6,60 0,15	6,10 0,15	5,10 0,15	4,60 0,15	3,60 0,15
10% Ammonium persulfate(5)	0,05	0,05	0,05	0,05	0,05	0,05	0,05	0,05	0,05	0,05
TEMED	0,01	0,01	0,01	0,01	0,01	0,01	0,01	0,01	0,01	0,01

Page 2

Properties of Aqueous CsCI Solutions @ 20°C

Concentration Percent (w/w)	Concentration Percent (w/v)	Density (g/mL)	Refractive index @ 20°C
20	23,51	1,1756	1,3507
22	26,33	1,1967	1,3528
24	29,24	1,2185	1,3550
26	32,27	1,2411	1,3572
28	35,40	1,2644	1,3594
30	38,66	1,2885	1,3617
32	42,03	1,3135	1,3641
34	45,54	1,3393	1,3666
36	49,18	1,3661	1,3691
38	52,96	1,3938	1,3717
40	56,90	1,4226	1,3744
42	61,00	1,4525	1,3771
44	65,27	1,4835	1,3800
46	69,73	1,5158	1,3829
48	74,37	1,5495	1,3860
50	79,23	1,5846	1,3892
52	84,30	1,6212	1,3925
54	89,62	1,6596	1,3960
56	95,19	1,6999	1,3996
58	101,05	1,7422	1,4035
60	107,21	1,7868	1,4076
62	113,71	1,8340	1,4120
64	120,59	1,8842	1,4167

Southern Blotting Stock Solutions

Prehybridisation Solution (use 0.2mL/cm2 of membrane)

6X SSC (BPE1325)
0.5% SDS (BPE1311)
5X Denhardt's Reagent (BPE515 or see below)
100μg/mL denatured salmon sperm DNA

Hybridisation Solution (use 50μL/cm2 of membrane)

6X SSC (BPE1325)
0.5% SDS (BPE1311)
5X Denhardt's Reagent (BPE515 or see below)
100μg/mL denatured salmon sperm DNA
0.1M EDTA
Radioactive or non-radioactive probe DNA

Electrophoresis Stains and Tracking Dyes

Stain/Dye	Use
Protein stains
Silver stain	Most sensitive protein stain available
Coomassie* Brilliant Blue R-250	General protein stain; more sensitive than Coomassie G-250
Coomassie* Brilliant Blue G-250	General protein stain
Alcian Blue	Glycoprotein stain
Fast Green FCF	Protein stain for collagenous tissues
Crocein Scarlet	Stain used in immunoelectrophoresis
Oil Red O	Lipoprotein stain
Light Green SF, Yellowish	Protein stain for collagenous tissues
Ponceau S	General protein stain
Nucleic acid stains
Methylene Blue	Stain for RNA or RNase
Toluidine Blue O	Stain for RNA or RNase (alternative to Methylene Blue)
Ethidium Bromide	General nucleic acid stain
Silver Stain	Very sensitive nucleic acid stain for polyacrylamide gels
Acridine Orange	Nucleic acid stain
General stains (Proteins and nucleic acids)
Amido Black 10B	General stain, especially suited for nitrocellulose
Basic Fuchsin	Glycoprotein and nucleic acid stain
Stains-all	General protein and nucleic acid stain
Tracking dyes
Bromophenol Blue	Neutral and basic tracking dye, especially used for SDS–PAGE and DNA sequencing
Bromocresol Green	Tracking dye for DNA agarose electrophoresis
Pyronin Y	Acidic tracking dye for RNA electrophoresis
Methyl Green	Neutral and acidic tracking dye for native DNA
Methyl Red	Acidic tracking dye, especially used for isoelectric focusing
Xylene Cyanole FF	Tracking dye for DNA sequencing

Haploid DNA Content of Various Organisms

	Size of DNA	Weight of DNA
Organism	(bp)	(Daltons)
Mammals	~3,0 x 109	~1,9 x 1012
Drosophila	~1,2 x 108	~7,7 x 1010
Yeast (S. cerevisiae)	~1,6 x 107	~1,0 x 1010
E. coli	~4,0 x 106	~2,5 x 109
Bacteriophage T2	~2,0 x 105	~1,3 x 108
Bacteriophage ë	48,514	3,1 x 107
pBR322	4363	2,8 x 106
pUC18/pUC19	2686	1,7 x 106

From Molecular Cloning: A Laboratory Manual, second edition (1989).

Page 3

Concentration of DNA in Solution

Double-stranded DNA (50ìg/mL)	Molecules/mL	Moles/mL	Molar concentration	Molar concentration of termini
Bacteriophage	9,78 x 10¹¹	1,62 x 10^-12	1,62nM	3,24nM
pBR322	1,09 x 10¹³	1,81 x 10^-11	18,1nM	36,2nM
pUC18/pUC19	1,77 x 10¹³	2,94 x 10^-11	29,4nM	58,8nM
Segment of DNA (1kb)	4,74 x 10¹³	7,87 x 10^-11	78,7nM	157,4nM
Octameric double-stranded linker	5,92 x 10¹⁵	9,83 x 10^-9	9,83µM	19,7µM

From Molecular Cloning: A Laboratory Manual, second edition (1989).

Preparation of 0.1M Potassium Phosphate Buffer @ 25°C

Desired pH	Volume of 1M K2HPO4 (mL)	Volume of 1M KH2PO4 (mL)
5,8	8,5	91,5
6,0	13,2	86,8
6,2	19,2	80,8
6,4	27,8	72,2
6,6	38,1	61,9
6,8	49,7	50,3
7,0	61,5	38,5
7,2	71,7	28,3
7,4	80,2	19,8
7,6	86,6	13,4
7,8	90,8	9,2
8,0	94,0	6,0

Preparation of 0.1M Sodium Phosphate Buffer @ 25°C

Desired pH	Volume of 1M K2HPO4 (mL)	Volume of 1M KH2PO4 (mL)
5.8	7.9	92.1
6.0	12.0	88.0
6.2	17.8	82.2
6.4	25.5	74.5
6.6	35.2	64.8
6.8	46.3	53.7
7.0	57.7	42.3
7.2	68.4	31.6
7.4	77.4	22.6
7.6	84.5	15.5
7.8	89.6	10.4
8.0	93.2	6.8

Antibiotic Solutions

	Stock Solution (1)		Working concentration
	Concentration temperature	Storage plasmids	For stringent plasmids	For relaxed
Ampicillin	50mg/mL in H2O	–20°C	20µg/mL	60µg/mL
Carbenicillin	50mg/mL in H2O	–20°C	20µg/mL	60µg/mL
Chloramphenicol	34mg/mL in ethanol	–20°C	25µg/mL	170µg/mL
Kanamycin	10mg/mL in H2O	–20°C	10µg/mL	50µg/mL
Tetracycline (2)	5mg/mL in ethanol	–20°C	10µg/mL	50µg/mL

(1) Stock solutions of antibiotics dissolved in H2O should be sterilised by filtration through a 0.22μm filter. Antibiotics dissolved in ethanol need not be sterilised. Store solutions in light-tight containers.
(2) Magnesium ions are antagonists of tetracycline. Use media without magnesium salts (eg, LB medium) for selection of bacteria resistant to tetracycline.

From Molecular Cloning: A Laboratory Manual, second edition (1989).

Page 4

Double-stranded DNA

Density (P) = (0.998)[G + C] + 1.660g/cm3 mole

Plasmid DNA	50% G + C	Density
RFI (supercoiled)	ds DNA	1,709g/mL
RFII (Nicked)	ds DNA	1,54g/mL
	ss DNA	1,726g/mL
	ss RNA	1,90g/mL

Notes

• Nicked DNA binds more Ethidium bromide than does supercoiled DNA
• Ethidium bromide at saturation decreases density of dsDNA ~0.15g/mL
• More Ethidium bromide bound = greater reduction in density
• By comparison, protein has a density of 1.33g/mL

Reference

Schildkraut, C.L., Marmur, J., and Doty, P. (1962) J. Mol. Bio. 4:430-433.

Effective Range of Separation of DNAs in Agarose gels

Amount of Agarose in gel (%[w/v])	Effective range of separation of linear DNA molecules (kb)
0,3	5 to 60
0,6	1 to 20
0,7	0,8 to 10
0,9	0,5 to 7
1,2	0,4 to 6
1,5	0,2 to 3
2,0	0,1 to 2

From Molecular Cloning: A Laboratory Manual, second edition (1989).

Effective Range of Separation of DNAs in Polyacrylamide gels

Acrylamide (%[w/v]) (1)	Effective range of separation (bp)	Xylene Cyanol FF2	Bromophenol Blue (2)
3,5	1,000 to 2,000	460	100
5	80 to 500	260	65
8	60 to 400	160	45
12	40 to 200	70	20
15	25 to 150	60	15
20	6 to 100	45	12

(1) Bis-acrylamide is included at 1/30th the concentration of acrylamide
(2) Numbers are the approximate sizes of fragments of double-stranded DNA with which the dye co-migrates

From Molecular Cloning: A Laboratory Manual, second edition (1989).

Electrophoretic Blotting Buffer

Component	Catalogue No	Amount to use	Final conc.
Tris base	BPE152	14,5g	20mM
Glycine	BPE381	67,0g	150mM
H2O	—	4L
Methanol	BPE1105	1,200mL Adjust pH to 8,0	20%
H2O		6L

From Molecular Cloning: A Laboratory Manual, second edition (1989).

Migration Rates of Marker Dyes Through Denaturing Polyacrylamide Gels

% Polyacrylamide	Xylene Cyanol FF1	Bromophenol Blue1
5	130	35
6	106	26
8	76	19
10	55	12
20	28	8

(1) Numbers are the approximate sizes of DNA (in nucleotides) with which the marker dye co-migrates.

From Molecular Cloning: A Laboratory Manual, second edition (1989).

Relative Migration of Differen Forms of Plasmid DNA on Tris-Acetate Agarose Gels (1)

(1) The exact migration can be affected by agarose gel percentage, electrophoresis time, concentration of Ethidium Bromide, and the size and degree of supercoiling of the DNA
(2) Ethidium Bromide reduces the rate of migration of all plasmid forms. The position of covalently closed circular DNA changes relative to the other forms in the presence of Ethidium Bromide
(3) See pages 232 - 235 for Fisher BioReagents' DNA MW markers
(4) See pages 254 for Fisher BioReagents' Ethidium Bromide

From Molecular Cloning: A Laboratory Manual, second edition (1989)