Effect of Distance between Homologous Sequences and 3' Homology on the Frequency of Retroviral Reverse Transcriptase Template Switching

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Effect of Distance between Homologous Sequences and 3' Homology on the Frequency of Retroviral Reverse Transcriptase Template Switching

Krista A. Delviks¹^,² and Vinay K. Pathak²^,³^,^*

Department of Genetics and Developmental Biology,¹ Mary Babb Randolph Cancer Center,² and Department of Biochemistry,³ West Virginia University, Morgantown, West Virginia 26506

Received 11 March 1999/Accepted 17 June 1999

Deletion of direct repeats in retroviral genomes provides an in vivo system for analysis of reverse transcriptase (RT) templateswitching. The effect of distance between direct repeats on therate of deletion was determined for 16 murine leukemia virus (MLV)-basedvectors containing a 701-bp direct repeat of overlapping fragmentsof the herpes simplex virus thymidine kinase gene (HTK). The directrepeats were separated by spacer fragments of various lengths(0.1 to 3.5 kb). Southern analysis of infected cells after onereplication cycle indicated that all vectors in which the distancebetween homologous sequences was >1,500 bp deleted at very highrates (>90%). In contrast, vectors containing <1,500 bp betweenhomologous sequences exhibited lower frequencies of deletion (37to 82%). To analyze the pattern of locations at which RT switchedtemplates, restriction site markers were introduced to dividethe downstream direct repeat into five regions. RT switched templateswithin all five regions of the 701-bp direct repeat and the frequencyof template switching was greater within the 5' regions in comparisonto the 3' regions. The probability of RT switching templates withinthe 5' regions doubled when the MLV packaging sequence ( $Psi$ ) wasplaced between the 701-bp direct repeats. However, $Psi$ did not increasethe rate of template switching for shorter direct repeats. Theseresults indicate that linear distance between homologous sequencesincreases the rate of template switching and suggest that duplexformation between nascent DNA and homologous template sequences3' of RT promote templateswitching.

^* Corresponding author. Mailing address: Mary Babb Randolph Cancer Center, West Virginia University, Morgantown, WV 26506. Phone:(304) 293-0495. Fax: (304) 293-4667. E-mail: VPATHAK{at}WVU.edu.

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