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Theoretical permutation gel electrophoretic analysis of a curved DNA fragment located in circular permutation.
EPrints@IICB
View Archive Info| Field | Value | |
| Title |
Theoretical permutation gel electrophoretic analysis of a curved DNA fragment located in circular permutation. |
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| Creator |
Nair, T Murlidharan
Madhusudan, K Nagaraja, V Kulkarni, B D Majumder, Hemanta K Singh, Rajan |
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| Subject |
Infectious Diseases and Immunology
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| Description |
The conformational properties of the polymorphic mole- cule DNA are controlled by the nucleotide sequence it contains. Apart from the structural polymorphism based on the variants of DNA secondary structure viz. B-DNA, A-DNA, Z-DNA and the parallel stranded and H-DNA, the role of local structural polymorphism has been a subject of intense theoretical and experimental investiga- tions in the recent past [l-41. The evidence for such local structural polymorphism was found in the crystallo- graphic studies of defined DNA fragments [5]. DNA cur- vature is an example of such microstructural polymor- phism and is now believed to be an intrinsic attribute of certain DNA sequences [l, 6-81. The existence of such sequence-dependent structural deformation in DNA, which was first identified in the phased (A), tracts from the kinetoplast DNA (K-DNA) of Leishmania torentolae, is now an established fact [l, 41. Two classes of models have been proposed to explain the basis of DNA curva- ture. The wedge model originally proposed by Trifonov [6-91 is based on the assumption that the non-parallel- ness of the base pairs due to the different dihedral angles between different base pair stacks gives rise to some small sequence-dependent wedges. The axial deflection of the successive wedges combine to form a planer curve and is particularly significant for the AA sequence. The junction bending model [lo, 111 identifies the origin of curvature at the conformational transition between locally somewhat different sequence-dependent forms of DNA, such as the deflection of the DNA axis at the junction between B-form and A-form. The phasing of the (A), tracts assures that the curvatures of individ- ual bending elements add up to produce a large overall bend in both models. Intrinsic DNA curvature is not limited to sequences containing poly-A runs. Investiga- tions have shown that there are a number of curved DNA fragments whose sequence contain no poly-A tracts [12, 131. The functional role of intrinsic DNA cur- vature has been found to be associated with replication, |
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| Date |
1996
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| Type |
Article
PeerReviewed |
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| Format |
application/pdf
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| Identifier |
http://www.eprints.iicb.res.in/704/1/ELECTROPHORESIS%2C_17(_4)%2C_633%2D641[48].pdf
Nair, T Murlidharan and Madhusudan, K and Nagaraja, V and Kulkarni, B D and Majumder, Hemanta K and Singh, Rajan (1996) Theoretical permutation gel electrophoretic analysis of a curved DNA fragment located in circular permutation. Electrophoresis, 17 (4). pp. 633-641. |
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| Relation |
http://dx.doi.org/0173-0835/96/0404-0633
http://www.eprints.iicb.res.in/704/ |
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