We have analysed functional properties of putative proteins encoded by the yeast transposable element, Ty1, by overexpression of TY genes. High-level expression was achieved by appropriate fusion of a Ty sequence, TY9C, to the yeast ADH1 promoter and transformation of yeast cells with this construction. As shown recently by others (Garfinkel et al. 1985; Mellor et al. 1985c) TY overexpression leads to an increase in particle-bound reverse transcriptase activity and to an intracellular accumulation of virus-like particles (Ty-VLPs). We have used a number of deletions in the second open reading frame (TYB) to identify functional domains required for processing and assembly of Ty proteins. Deletions in the TYB region with homology to acid proteases result in overproduction of an unprocessed form of the TYA protein (pro-TYA) which represents the major protein of Ty-VLPs. One particular mutant construction, TY9C-delta 36, led to the accumulation of a particle-bound, 160 kDa protein which cross-reacted with a mouse antiserum raised against purified pro-TYA protein. This supports the hypothesis that TYB is expressed as a TYA/TYB fusion protein which is processed by a TYB-encoded protease activity. Ty-VLPs are formed in the absence of protein processing and even when the TYB gene is not expressed. Thus, we assume that the assembly of Ty particles occurs prior to processing of Ty proteins.
A number of group II introns from eukaryotic organelies and prokaryotes contain open reading frames for polypeptides with homology to retroviral reverse transcriptases (RTs). We have used the yeast transposon (Ty) system to express ORFs for RTs from eukaryotic organelies. This includes the mitochondrial coxI intron il from the fungus Podospora anserina, the plastid petD intron from the alga Scenedesmus obliquus and the mitochondrial RTh gene from the alga Chlamydomonas reinhardtii. The ORFs were fused with the TYA ORF from the yeast retrotransposon Ty to produce virus-like particles in the recipient strains with detectable amounts of the RT-like polypeptides. Analysis of the heterologous gene products revealed biochemical evidence that the P.anserina intron encodes an RNA-directed DNA polymerase with properties typically found for RTs of viral or retrotransposable origin. In vitro assays showed that the intron encoded RT is sensitive to RT inhibitors such as N-ethylmaleimide and dideoxythymidine triphosphate but is insensitive against the DNA polymerase inhibitor aphidicolin. The direct biochemical evidence provided here supports the idea that intron encoded RTs are involved in intron transposition events.
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