R Hanai1, M Yazu, K Hieda. 1. Department of Chemistry, Rikkyo, (St Paul's) University, Tokyo, Japan.
Abstract
PURPOSE: To determine directly the minimal distance between two ssbs on complementary strands in circular DNA that are not observed as a dsb by electrophoresis. MATERIALS AND METHODS: 3.2 kbp DNAs with cohesive overhangs of various lengths were systematically generated by a newly devised method and electrophoresed in agarose slabs. RESULTS: At 4 degrees C, 3.2 kbp DNA with cohesive overhangs larger than 6 bp migrated as circular DNA. The minimal overhang size for the DNA to migrate as circular DNA was larger at 25 degrees C. Whether the DNA migrated as a circular or a linear molecule depended also on the nucleotide sequence of its overhangs, most notably at the minimal size. CONCLUSIONS: The minimal distance obtained in the present study agrees with the smaller values of previous indirect estimates. The dependence of the distance on experimental conditions suggests feasibility of obtaining the stagger-size distribution of radiation-induced dsbs.
PURPOSE: To determine directly the minimal distance between two ssbs on complementary strands in circular DNA that are not observed as a dsb by electrophoresis. MATERIALS AND METHODS: 3.2 kbp DNAs with cohesive overhangs of various lengths were systematically generated by a newly devised method and electrophoresed in agarose slabs. RESULTS: At 4 degrees C, 3.2 kbp DNA with cohesive overhangs larger than 6 bp migrated as circular DNA. The minimal overhang size for the DNA to migrate as circular DNA was larger at 25 degrees C. Whether the DNA migrated as a circular or a linear molecule depended also on the nucleotide sequence of its overhangs, most notably at the minimal size. CONCLUSIONS: The minimal distance obtained in the present study agrees with the smaller values of previous indirect estimates. The dependence of the distance on experimental conditions suggests feasibility of obtaining the stagger-size distribution of radiation-induced dsbs.
Authors: Mary Gehring; Jin Hoe Huh; Tzung-Fu Hsieh; Jon Penterman; Yeonhee Choi; John J Harada; Robert B Goldberg; Robert L Fischer Journal: Cell Date: 2006-02-10 Impact factor: 41.582