DNA primase and the replication of the telomeres in Oxytricha nova

doi:10.1093/nar/17.15.6299

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Nucleic Acids Research, 1989, Vol. 17, No. 15 6299-6317
© 1989

ENZYMOLOGY

DNA primase and the replication of the telomeres in Oxytricha nova

Alan M. Zahler and David M. Prescott

Department of Molecular, Cellular and Developmental Biology, Campus Box 347, University of Colorado Boulder, CO 80309-0347, USA

Received April 7, 1989. Revised June 27, 1989. Accepted June 27, 1989.

An enzymatic activity in crude extracts of macronuclei fromthe hypotrichous ciliate Oxytricha nova catalyzes the synthesisof RNA consisting of (C₄A₄)n using an oligodeoxynucleotide templateof the telomeric sequence (dG₄T₄)n. Single-stranded (dG₄T₄)nis an effective template if it has a random sequence at its5' end. The enzyme will not use a (dG₄T₄)n template of any length(up to 64 bases) if it lacks a random sequence at the 5' end.With a random, single-stranded sequence at the 5' end, the (dG₄T₄)_noligodeoxynucleotide must be at least 36 bases long to workas a template. A 16-base, single-stranded region of (dG₄T₄)₂is an effective template when joined to a 20-base double-strandedregion of (dG₄T₄)₂ n/(dA₄dC₄)_n, a structural arrangement thatis the same as the native telomere of Oxytricha macronuclearDNA. The RNA-synthesizing activity is unaffected by 1.0 mg/mlof a-amanitin. Macronuclear extracts have an a-amanitin-insensitive,RNA-polymerizing activity that can use a random 55mer oligodeoxynucleotideas a template. This enzyme activity may be the same one thatuses (dG₄T₄)_n templates to make (C₄A₄), RNA. The (C₄A₄)_n RNAmade in the reaction can prime DNA synthesis by the E. coliDNA polymerase I Klenow fragment. Therefore, the RNA polymeraseactivity fulfills the requirements of the telomere DNA primasethat we postulated for replication of telomeres in hypotrichs(Zahler and Prescott, 1988, Nucleic Acids Research 16, 6953–6972).

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