The Application of a Homologous Recombination Assay Revealed Amino Acid Residues in an LTR-Retrotransposon That Were Critical for Integration

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J Virol, February 1998, p. 1324-1333, Vol. 72, No. 2
0022-538X/98/$04.00+0
Copyright © 1998, American Society for Microbiology. All rights reserved.

The Application of a Homologous Recombination Assay Revealed Amino Acid Residues in an LTR-Retrotransposon That Were Critical for Integration

Angela Atwood, Jeannie Choi, and Henry L. Levin^*

Laboratory of Eukaryotic Gene Regulation, National Institute of Child Health and Human Development, National Institutes of Health, Bethesda, Maryland 20892

Received 7 August 1997/Accepted 22 October 1997

Retroviruses and their relatives, the LTR-retrotransposons, possess an integrase protein (IN) that is required for the insertionof reverse transcripts into the genome of host cells. Schizosaccharomycespombe is the host of Tf1, an LTR-retrotransposon with integrationactivity that can be studied by using techniques of yeast genetics.In this study, we sought to identify amino acid substitutionsin Tf1 that specifically affected the integration step of transposition.In addition to seeking amino acid substitutions in IN, we alsoexplored the possibility that other Tf1 proteins contributed tointegration. By comparing the results of genetic assays that monitoredboth transposition and reverse transcription, we were able toseek point mutations throughout Tf1 that blocked transpositionbut not the synthesis of reverse transcripts. These mutant versionsof Tf1 were candidates of elements that possessed defects in theintegration step of transposition. Five mutations in Tf1 thatresulted in low levels of integration were found to be locatedin the IN protein: two substitutions in the N-terminal Zn domain,two in the catalytic core, and one in the C-terminal domain. Theseresults suggested that each of the three IN domains was requiredfor Tf1 transposition. The potential role of these five aminoacid residues in the function of IN is discussed. Two of the mutationsthat reduced integration mapped to the RNase H (RH) domain ofTf1 reverse transcriptase. The Tf1 elements with the RH mutationsproduced high levels of reverse transcripts, as determined byrecombination and DNA blot analysis. These results indicated thatthe RH of Tf1 possesses a function critical for transpositionthat is independent of the accumulation of reverse transcripts.

^* Corresponding author. Mailing address: Laboratory of Eukaryotic Gene Regulation, National Institute of Child Health and HumanDevelopment, NIH, Bethesda, MD 20892. Phone: (301) 402-4281. Fax:(301) 496-8576. E-mail: Henry_Levin{at}nih.gov.

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