The manipulation of DNA with restriction enzymes in low water systems
The cleavage of phage lambda (λ) DNA by the restriction enzyme HindIII in low water systems has been investigated. Two types of low water systems have been studied - those which contain a surfactant in a reverse micelle environment and a surfactant-free system in which a solid support (celite) is us...
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| Published in | Biochimica et biophysica acta Vol. 1074; no. 1; pp. 40 - 44 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Amsterdam
Elsevier B.V
24.05.1991
Elsevier |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0304-4165 0006-3002 1872-8006 |
| DOI | 10.1016/0304-4165(91)90036-G |
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| Abstract | The cleavage of phage lambda (λ) DNA by the restriction enzyme
HindIII in low water systems has been investigated. Two types of low water systems have been studied - those which contain a surfactant in a reverse micelle environment and a surfactant-free system in which a solid support (celite) is used. The effect of the surfactants themselves in a normal aqueous environment has also been studied. Charged surfactants were found to greatly inhibit
HindIII activity in aqueous buffer, while non-ionic surfactants did not affect either the activity or the specificity of the restriction enzyme. The rate of cleavage by
HindIII in a reverse micelle system consisting of sodium dioctylsulphosuccinate is very slow, however, in a Triton B system the expected fragments are observed. In a surfactant-free low water environment, cleavage occurs at the expected sites but in a different order to that observed in normal aqueous systems. These results suggest that DNA tertiary structure in low water systems is different to that in aqueous solution and that this influences cleavage by the restriction enzyme
HindIII. |
|---|---|
| AbstractList | The cleavage of phage lambda (λ) DNA by the restriction enzyme
HindIII in low water systems has been investigated. Two types of low water systems have been studied - those which contain a surfactant in a reverse micelle environment and a surfactant-free system in which a solid support (celite) is used. The effect of the surfactants themselves in a normal aqueous environment has also been studied. Charged surfactants were found to greatly inhibit
HindIII activity in aqueous buffer, while non-ionic surfactants did not affect either the activity or the specificity of the restriction enzyme. The rate of cleavage by
HindIII in a reverse micelle system consisting of sodium dioctylsulphosuccinate is very slow, however, in a Triton B system the expected fragments are observed. In a surfactant-free low water environment, cleavage occurs at the expected sites but in a different order to that observed in normal aqueous systems. These results suggest that DNA tertiary structure in low water systems is different to that in aqueous solution and that this influences cleavage by the restriction enzyme
HindIII. The cleavage of phage lambda (lambda) DNA by the restriction enzyme HindIII in low water systems has been investigated. Two types of low water systems have been studied--those which contain a surfactant in a reverse micelle environment and a surfactant-free system in which a solid support (celite) is used. The effect of the surfactants themselves in a normal aqueous environment has also been studied. Charged surfactants were found to greatly inhibit HindIII activity in aqueous buffer, while non-ionic surfactants did not affect either the activity or the specificity of the restriction enzyme. The rate of cleavage by HindIII in a reverse micelle system consisting of sodium dioctylsulphosuccinate is very slow, however, in a Triton B system the expected fragments are observed. In a surfactant-free low water environment, cleavage occurs at the expected sites but in a different order to that observed in normal aqueous systems. These results suggest that DNA tertiary structure in low water systems is different to that in aqueous solution and that this influences cleavage by the restriction enzyme HindIII. The cleavage of phage lambda (lambda) DNA by the restriction enzyme HindIII in low water systems has been investigated. Two types of low water systems have been studied--those which contain a surfactant in a reverse micelle environment and a surfactant-free system in which a solid support (celite) is used. The effect of the surfactants themselves in a normal aqueous environment has also been studied. Charged surfactants were found to greatly inhibit HindIII activity in aqueous buffer, while non-ionic surfactants did not affect either the activity or the specificity of the restriction enzyme. The rate of cleavage by HindIII in a reverse micelle system consisting of sodium dioctylsulphosuccinate is very slow, however, in a Triton B system the expected fragments are observed. In a surfactant-free low water environment, cleavage occurs at the expected sites but in a different order to that observed in normal aqueous systems. These results suggest that DNA tertiary structure in low water systems is different to that in aqueous solution and that this influences cleavage by the restriction enzyme HindIII.The cleavage of phage lambda (lambda) DNA by the restriction enzyme HindIII in low water systems has been investigated. Two types of low water systems have been studied--those which contain a surfactant in a reverse micelle environment and a surfactant-free system in which a solid support (celite) is used. The effect of the surfactants themselves in a normal aqueous environment has also been studied. Charged surfactants were found to greatly inhibit HindIII activity in aqueous buffer, while non-ionic surfactants did not affect either the activity or the specificity of the restriction enzyme. The rate of cleavage by HindIII in a reverse micelle system consisting of sodium dioctylsulphosuccinate is very slow, however, in a Triton B system the expected fragments are observed. In a surfactant-free low water environment, cleavage occurs at the expected sites but in a different order to that observed in normal aqueous systems. These results suggest that DNA tertiary structure in low water systems is different to that in aqueous solution and that this influences cleavage by the restriction enzyme HindIII. |
| Author | Bryan Hanley, A. Furniss, Caroline S.M. Kwiatkowska, Christine A. Mackie, Alan R. |
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| Cites_doi | 10.1016/0006-291X(82)91525-X 10.1016/S0022-2836(66)80178-X 10.3109/10242429008992068 10.1002/bip.1973.360120109 10.1016/0006-291X(79)90965-3 10.1038/324385a0 10.1016/0141-0229(89)90114-2 10.1021/bi00390a042 10.3109/10242428709040126 |
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| Keywords | Restriction enzyme Low water system AOT Lambda DNA Enzyme Micelle Environmental factor Surfactant Virus Lambda phage group Styloviridae DNA Endodeoxyribonuclease HindIII Cleavage Aqueous solution Phage lambda Spectrophotometry Phage |
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| Snippet | The cleavage of phage lambda (λ) DNA by the restriction enzyme
HindIII in low water systems has been investigated. Two types of low water systems have been... The cleavage of phage lambda (lambda) DNA by the restriction enzyme HindIII in low water systems has been investigated. Two types of low water systems have... |
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| SubjectTerms | Analytical, structural and metabolic biochemistry Bacteriophage lambda - genetics Biological and medical sciences Deoxyribonuclease HindIII - metabolism Diatomaceous Earth Dioctyl Sulfosuccinic Acid - chemistry DNA, Viral - chemistry DNA, Viral - metabolism Enzymes and enzyme inhibitors Fundamental and applied biological sciences. Psychology Hydrolases Lambda DNA Low water system Micelles Restriction enzyme Restriction Mapping Solubility Surface-Active Agents - chemistry Water - chemistry |
| Title | The manipulation of DNA with restriction enzymes in low water systems |
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