L Murad scite author profile

Nicotiana tabacum (tobacco) is a natural allotetraploid. The maternal genome donor is not controversial and is probably derived from an ancestor of N. sylvestris. The paternal, T-genome donor has been less clear, with N. tomentosiformis, N. otophora, or an introgression hybrid proposed. Here we provide evidence that the T genome of N. tabacum is derived from a particular lineage of N. tomentosiformis. We show that the repetitive sequences of geminiviral origin, GRD53 and GRD3, are present in the genomes of N. tabacum cultivars, a tobacco cell suspension culture TBY-2, and N. tomentosiformis ac. NIC 479/84. Surprisingly, they are not present in another three varieties of N. tomentosiformis. A detailed cytogenetic analysis also revealed that N. tomentosiformis ac. NIC 479/84 most closely resembles the N. tabacum T genome in the location of other tandem repetitive sequences. Thus, tobacco formed after divergence within N. tomentosiformis, and the spectrum of potential donors of the paternal genome can be narrowed to a genotype of N. tomentosiformis characterized by the presence of GRD53 and GRD3 repeats. It is clear that future paternity studies in tobacco should use N. tomentosiformis ac. NIC 479/84 rather than any other accession.

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The origin and evolution of geminivirus-related DNA sequences in Nicotiana

Murad

Bielawski

Matyášek

et al. 2004

Heredity

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A horizontal transmission of a geminiviral DNA sequence, into the germ line of an ancestral Nicotiana, gave rise to multiple repeats of geminivirus-related DNA, GRD, in the genome. We follow GRD evolution in Nicotiana tabacum (tobacco), an allotetraploid, and its diploid relatives, and show GRDs are derived from begomoviruses. GRDs occur in two families: the GRD5 family's ancestor integrated into the common ancestor of three diploid species, Nicotiana kawakamii, Nicotiana tomentosa and Nicotiana tomentosiformis, on homeologous group 4 chromosomes. The GRD3 family was acquired more recently on chromosome 2 in a lineage of N. tomentosiformis, the paternal ancestor of tobacco. Both GRD families include individual members that are methylated and diverged. Using relative rates of synonymous and nonsynonymous nucleotide substitutions, we tested for evidence of selection on GRD units and found none within the GRD3 and GRD5 families. However, the substitutions between GRD3 and GRD5 do show a significant excess of synonymous changes, suggesting purifying selection and hence a period of autonomous evolution between GRD3 and GRD5 integration. We observe in the GRD3 family, features of Helitrons, a major new class of putative rolling-circle replicating eukaryotic transposon, not found in the GRD5 family or geminiviruses. We speculate that the second integration event, resulting in the GRD3 family, involved a free-living geminivirus, a Helitron and perhaps also GRD5. Thus our data point towards recurrent dynamic interplay between geminivirus and plant DNA in evolution.

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L Murad

The origin of tobacco's T genome is traced to a particular lineage within Nicotiana tomentosiformis (Solanaceae)

The origin and evolution of geminivirus-related DNA sequences in Nicotiana

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