关于如何计算引物和核酸浓度的方法
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a) Primers:
i) Oligonucleotide primers are generally supplied as "so many OD units/ml" - but what does this mean, in terms of mg/ml, or mmol/ml, etc?
Given: a primer is Y nucleotides (nt) long;
Given: the MW of ssDNA is (330 daltons per nt) x (length in nt) (Sambrook et al., 1989; p. C.1);
Given: the concentration of primer (=ssDNA) producing an OD of 1 at 254 nm in a 1 cm cuvette, is 37 ug/ml;
Then: the MW of the primer is 330.Y daltons
And: X OD/ml = 37.X ug/ml = 37.X mg/l = 37.X /330.Y mM = 37.X.1000/330.Y uM
For example:
B 88/77 primer - a 17-mer oligodeoxynucleotide - as supplied is 12.6 OD units/ml. We need to make a 5 uM stock solution for PCR.
MW: 17 x 330 = 5610
Concentration: 12.6 OD x 37 ug/ml = 466 ug/ml = 466 mg/l = 0.466 g/l
Molarity: 0.466/5610 = 0.000083 Molar = 83 uM
Therefore: we need 5 ul of oligo stock solution in 83 ul (+78 ul water) to make a 5 uM solution (if 1 ul in 83 ul gives a 1 uM soln...)
ii) Calculation of amounts for PCR reactions: if we need a final concentration of 0.5 uM oligo in the PCR reaction mix (final volume 50 ul), we add 5 ul of 5 uM stock to the reaction mix (1/10 final dilution).
b) Nucleotides:
Stocks of nucleotides for PCR (or other procedure) are NEARLY ALWAYS dNTPs (deoxynucleotides), and concentrations is almost always given in EACH dNTP: that is, the given concentration is EACH nucleotide in the mix, NOT the total concentration. This means that a 2.5 mM dNTP mix for PCR contains 2.5 mM of EACH dNTP, and 10 mM TOTAL dNTPs.
Example:
i) Make up a 2.5 mM stock solution of dNTPs from stock 100 mM individual dNTPs, supplied by Promega:
FIRST mix equal volumes of each nucleotide (eg: 50 ul): this gives you 200 ul of 25 mM mixed dNTPs (Remember: concn. expressed in EACH dNTP).
THEN dilute this (or aliquot) 1/10 with WATER - aliquot into 100 ul amounts and freeze.
ii) Prepare a 1 mM stock of dNTPs with dTTP substituted to 10% (w/w) by digoxigenin-11-dUTP (DIG-dUTP) for use as a labelling mix for PCR labelling of PCR products:
GIVEN:
DIG-dUTP supplied (by Boehringer Mannheim) at 25 nmol/25ul = 1 umol/ml = 1mM; final concentration of DIG-dUTP must be 1/10th that of other nucleotides, and [DIG-dUTP] + [dTTP] must = [any other dNTP]. Therefore to get a 1 mM dNTP stock one must dilute DIG-dUTP stock 1/10.
FIRST dilute separate 100 mM dNTP stocks to 10 mM (eg. 5 ul to 50 ul, in water).
THEN mix equal volumes (eg. 10 ul) of 10 mM dCTP, dGTP and dATP stock, and 9/10ths volume of dTTP (9 ul). Add equal volume (eg. 10 ul) of of 1 mM DIG-dUTP.
THEN add water to 10 vol (=100 ul; add 51 ul): final concentration each dNTP = 1 mM; final concn DIG-dUTP = 0.1 mM, and of dTTP = 0.9 mM.
iii) USE mix made above at 50 uM each dNTP in a PCR reaction mix, final volume 25ul:
NEED to dilute mix 1/20; therefore use 1.25 ul dNTP labelling mix per 25 ul reaction volume (1/20 = 5/100 = 1.25/25).
To make mastermix: multiply amount of dNTP per reaction by number of reactions.
i) Oligonucleotide primers are generally supplied as "so many OD units/ml" - but what does this mean, in terms of mg/ml, or mmol/ml, etc?
Given: a primer is Y nucleotides (nt) long;
Given: the MW of ssDNA is (330 daltons per nt) x (length in nt) (Sambrook et al., 1989; p. C.1);
Given: the concentration of primer (=ssDNA) producing an OD of 1 at 254 nm in a 1 cm cuvette, is 37 ug/ml;
Then: the MW of the primer is 330.Y daltons
And: X OD/ml = 37.X ug/ml = 37.X mg/l = 37.X /330.Y mM = 37.X.1000/330.Y uM
For example:
B 88/77 primer - a 17-mer oligodeoxynucleotide - as supplied is 12.6 OD units/ml. We need to make a 5 uM stock solution for PCR.
MW: 17 x 330 = 5610
Concentration: 12.6 OD x 37 ug/ml = 466 ug/ml = 466 mg/l = 0.466 g/l
Molarity: 0.466/5610 = 0.000083 Molar = 83 uM
Therefore: we need 5 ul of oligo stock solution in 83 ul (+78 ul water) to make a 5 uM solution (if 1 ul in 83 ul gives a 1 uM soln...)
ii) Calculation of amounts for PCR reactions: if we need a final concentration of 0.5 uM oligo in the PCR reaction mix (final volume 50 ul), we add 5 ul of 5 uM stock to the reaction mix (1/10 final dilution).
b) Nucleotides:
Stocks of nucleotides for PCR (or other procedure) are NEARLY ALWAYS dNTPs (deoxynucleotides), and concentrations is almost always given in EACH dNTP: that is, the given concentration is EACH nucleotide in the mix, NOT the total concentration. This means that a 2.5 mM dNTP mix for PCR contains 2.5 mM of EACH dNTP, and 10 mM TOTAL dNTPs.
Example:
i) Make up a 2.5 mM stock solution of dNTPs from stock 100 mM individual dNTPs, supplied by Promega:
FIRST mix equal volumes of each nucleotide (eg: 50 ul): this gives you 200 ul of 25 mM mixed dNTPs (Remember: concn. expressed in EACH dNTP).
THEN dilute this (or aliquot) 1/10 with WATER - aliquot into 100 ul amounts and freeze.
ii) Prepare a 1 mM stock of dNTPs with dTTP substituted to 10% (w/w) by digoxigenin-11-dUTP (DIG-dUTP) for use as a labelling mix for PCR labelling of PCR products:
GIVEN:
DIG-dUTP supplied (by Boehringer Mannheim) at 25 nmol/25ul = 1 umol/ml = 1mM; final concentration of DIG-dUTP must be 1/10th that of other nucleotides, and [DIG-dUTP] + [dTTP] must = [any other dNTP]. Therefore to get a 1 mM dNTP stock one must dilute DIG-dUTP stock 1/10.
FIRST dilute separate 100 mM dNTP stocks to 10 mM (eg. 5 ul to 50 ul, in water).
THEN mix equal volumes (eg. 10 ul) of 10 mM dCTP, dGTP and dATP stock, and 9/10ths volume of dTTP (9 ul). Add equal volume (eg. 10 ul) of of 1 mM DIG-dUTP.
THEN add water to 10 vol (=100 ul; add 51 ul): final concentration each dNTP = 1 mM; final concn DIG-dUTP = 0.1 mM, and of dTTP = 0.9 mM.
iii) USE mix made above at 50 uM each dNTP in a PCR reaction mix, final volume 25ul:
NEED to dilute mix 1/20; therefore use 1.25 ul dNTP labelling mix per 25 ul reaction volume (1/20 = 5/100 = 1.25/25).
To make mastermix: multiply amount of dNTP per reaction by number of reactions.
