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DNase I

Code
A3778
CAS
9003-98-9
Molar mass
~31000 g/mol

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code packaging size price per unit box price per unit
Code & packaging Price per piece
A3778,0010
code
A3778,0010
packaging size
10 mg
price per unit
single 27,20€
box price per unit
A3778,0050
code
A3778,0050
packaging size
50 mg
price per unit
single 53,80€
box price per unit
A3778,0100
code
A3778,0100
packaging size
100 mg
price per unit
single 90,10€
box price per unit
A3778,0500
code
A3778,0500
packaging size
500 mg
price per unit
single 372,30€
box price per unit
Physical Description:
Solid
Product Code:
A3778
Product Name:
DNase I
Short Description:
delivery form: salt-free, freeze-dried powder, chromatographically prepared
Specifications:
Activity (Kunitz): min. 3000 U/mg
WGK:
1
Storage:
-20°C
Origin:
from bovine pancreas
EINECS:
232-667-0
CS:
35079090
Download TDS file for complete specifications

Comments

Deoxyribonuclease I (DNase I) from beef pancreas is an endonuclease (glycoprotein), which preferentially cleaves the phosphodiester bond in the DNA behind pyrimidine nucleotides. This results in a polynucleotide with a 5'-phosphate and a free OH-group in position 3'. DNase I cleaves single-stranded and double-stranded DNA as well as chromatin. The specificity of the enzyme reaction (single-strand-'Nicks' versus double-strand breakes) is determined by the ions available. In the presence of Mg2+ single-strand nicks are generated and in the presence of Mn2+ double-strand breakes. The pH-optimum of DNase I is 7.8 and it is activated by divalent cations. Maximum activation requires the presence of Mg2+ and additional Ca2+. Calcium ions (5 mM) protect DNase I from proteolytic digest. Inhibition is achieved by citrate, if activation is done by magnesium, but not if manganese has been the activator. Besides it is inhibited by chelators such as EDTA and SDS or β-mercaptoethanol.The enzyme is used in molecular biology techniques like digestion of DNA, in the RNA purification (ref. 2 Suppl. 1 pp. 4.1.4) or generating "random nicks" for "nick translation" (ref. 2 Suppl. 9 pp. 3.5.4-6) or 'footprint'-assays (ref. 2 Suppl. 7 chapter 12.4) or investigations on chromatin (ref. 2 Suppl. 48 chapter 21.4.1).Unit definition: One unit is defined as that amount of enzyme which causes an increase of absorbance at 260 nm of 0.001 per minute at 25°C based on the method of Kunitz. DNase I is readily soluble in e. g. 0.15 M sodium chloride or in reaction buffer (e. g. 50 mM Tris · Cl, pH 7.5; 10 mM MgCl₂ (single-strand 'nicks') and 10 mM MnCl₂ (double-strand breakes), respecitvely; 50 μg/ml BSA; ref. 2 Suppl. 8 page 3.12.5). For storage dissolve DNase I in 50% glycerol (w/v); 20 mM Tris · Cl, pH 7.5; 1 mM MgCl₂. For stability reasons the concentrations should be at least 1 mg/ml (The maximum solubility is 10%). This solution is stable for more than one year (ref. 2 Suppl. 8 page 3.12.5). The lyophilized form is stable for 2 - 5 years if kept at +4°C. If a solution is protease-free, DNase I will not loose significant activity at pH 5 - 7 and 62°C for 5 hours. The enzyme may be heat-inactivated (10 minutes at 99°C).RNase-free DNase I: Dissolve DNase I at 1 mg/ml in 0.1 M iodoacetic acid plus 0.15 M sodium acetate at a final pH of 5.3. The solution is then heated 40 minutes at 55°C and cooled. Finally, 1 M CaCl₂ is added to the solution to 5 mM. Store frozen in small aliquots (according to ref. 2 page 3.12.6 Supplement 8).

FAQs

What is the CAS number of DNase I ?

The CAS number of DNase I is 9003-98-9.

CAS DNase I ?

The CAS number of DNase I is 9003-98-9.

CAS 9003-98-9?

The CAS number 9003-98-9 is assigned to DNase I .

Literature

(1) Sambrook, J. & Russell, D.W. (2001) Molecular Cloning: A Laboratory Manual, 3rd Edition. pp. A4.40-42. Cold Spring Harbor Laboratory Press, Cold Spring Harbor, N.Y. (2) Ausubel, F.A., Brent, R., Kingston, R.E., Moore, D.D., Seidman, J.G., Smith, J.A. & Struhl, K. (eds.) 2001. Current Protocols in Molecular Biology. John Wiley & Sons, N.Y. (3) McDonald, M.R. (1955) Methods Enzymol. 2, 437-447. Deoxyribonucleases (4) Campbell, V.W. & Jackson, D.A. (1980) J. Biol. Chem. 255, 3726-3735. The effect of bivalent cations on the mechanism of DNase I. (5) Meinkoth, J. & Wahl, G.M. (1987) Methods Enzymol. 152, 91-94. Nick-Translation. (6) Cobianchi, F. & Wilson, S.H. (1987) Methods Enzymol. 152, 94-110. Enzymes for modifying and labeling of DNA and RNA.