Bibliographic Details
| Title: |
Leading strand specific spontaneous mutation corrects a quasipalindrome by an intermolecular strand switch mechanism11Edited by J. H. Miller |
| Authors: |
Rosche, William A., Trinh, Thuan Q., Sinden, Richard R. |
| Source: |
JMB Online (Journal of Molecular Biology); June 6, 1997, Vol. 269 Issue: 2 p176-187, 12p |
| Abstract: |
Imperfect inverted repeats or quasipalindromes can undergo spontaneous, often complex mutational events that correct them to perfect palindromes. Two models that depend on the quasipalindrome providing a template for a specific mutational event have been described to explain this mutation: an intramolecular and an intermolecular strand switch model. A 17 bp quasipalindrome containing a −1 deletion within the chloramphenicol acetyl transferase (CAT) gene in plasmid pJT7 undergoes a spontaneous +1 frameshift mutation that creates a perfect inverted repeat and a Cmr phenotype. By analyzing this mutation frequency in two plasmids that contain the CAT gene in either orientation with respect to the origin of replication, we show that the specific frameshift occurs preferentially in the leading strand during DNA replication. Due to the availability and proximity of the lagging strand template as a single strand during replication of the quasipalindrome in the leading but not lagging strand, we suggest that the specificity for the leading strand correction is due to a leading strand specific intermolecular strand switch rather than an intramolecular strand switch. To test this hypothesis, we have designed a genetic selection to detect a leading strand intermolecular strand switch. This selection utilizes asymmetric quasipalindromes, one of which contains two central stop codons. When cloned into the CAT gene in pJT7, reversion to Cmr requires inversion of the stop codons and addition of a +1 frameshift to correct the reading frame. The inversion of the central stop codons, which is predicted by an intermolecular but not an intramolecular strand switch, occurs concomitant with the specific correction of the original 17 bp quasipalindrome. Inversion of an asymmetric center can also be demonstrated when not under selective pressure using a quasipalindrome lacking central stop codons. These results are consistent with the correction of a quasipalindrome occurring predominantly by an intermolecular strand switch during replication of the leading strand. |
| Database: |
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