Roles of NtGTBP1 in telomere stability

Telomeres are protective nucleoprotein structures at the ends of linear eukaryotic chromosomes. In contrast to double-stranded-specific telomere-binding proteins, the cellular roles of single-stranded-specific telomeric proteins are not well understood in higher plants. Three highly conserved tobacco G-strand-specific telomere-binding protein paralogs (NtGTBP1, NtGTBP2 and NtGTBP3) were identified and characterized. All three NtGTBPs were able to bind specifically to the plant single-stranded telomeric repeat elements in vitro with similar affinities. Suppression of NtGTBP1 by means of the RNAi-mediated gene knock-down method resulted in developmental defects in transgenic tobacco plants accompanied by lengthened telomeres, extra-chromosomal telomeric circles and abnormal anaphase bridges. These results suggest that the downregulation of NtGTBP1 results in genome instability. NtGTBP1 prevented in vitro strand invasion, a prerequisite process for inter-chromosomal telomeric recombination. Therefore, tobacco NtGTBP1 is one of the essential factors for telomere stability. Because abnormal telomeric elongation and recombination due to the suppression of NtGTBP1 are reminiscent of the recombinational telomere lengthening mechanism that purportedly operates in telomerase negative cancer cells, it is of interest to investigate whether telomeric recombination is associated with cell death in animal systems.Key words: genome stability, inter-chromosomal recombination, single-stranded telomere-binding proteinsExtreme ends of linear eukaryotic chromosomes maintain telomeres, which contain protective complexes of proteins and DNA repeats.^1,2 Telomeric DNA repeats consist of two parts: double-stranded and single-stranded DNA sequence elements. Telomere sequences are protected by specialized sequence-specific non-histone DNA binding proteins. In higher plants, Myb domain-containing double-stranded DNA binding proteins (TRFs) are relatively well characterized and appear to be functionally conserved with mammalian TRFs.^3–5 However, situation of single-stranded telomeric binding proteins is complicated. Pot1, a well-known shelterin complex protein, has single-stranded telomere repeat binding activity in yeasts and mammals but no DNA binding activity in Arabidopsis, despite the fact that it is necessary for the proper maintenance of telomere integrity.^6–8 These results led us to investigate other proteins that potentially bind to single-stranded telomeric ends. Because some reports have found that human heterogeneous nuclear ribonucleoproteins (HnRNP) homologs contain sequence-specific telomere repeat binding activity in higher plants,^9,10 we characterized tobacco NtGTBP1, a homolog of human HnRNPs, by performing in vitro gel retardation assays and phenotypic analyses of RNAi-mediated knockdown transgenic tobacco plants, in which NtGTBP1 was downregulated.¹¹