Phylogenetic Analyses of Teleki Grapevine Rootstocks Using Three Chloroplast DNA Markers

Abstract

Teleki rootstocks are used in grapevine-producing countries all over the world. They represent one of the largest groups of available rootstocks but their origin is still in dispute although they have been regarded as Vitis berlandieri × V. riparia hybrids. To investigate their possible origin, we amplified and sequenced three chloroplast regions, two non-coding spacers (trnL-F, trnS-G) and the trnL group I intron in a core collection of Teleki rootstocks representing widespread accessions and related wild North American grape species (V. berlandieri, V. riparia and V. rupestris). Concatenated sequence data coupled with microstructural changes discovered in the chloroplast regions provided data to trace the maternal ancestry of the Teleki lines. All chloroplast regions showed both nucleotide and length variation. Length mutations in the non-coding regions represented mostly simple sequence repeats of poly-A and -T stretches. These indel characters exhibited additional diversity comparable with the nucleotide diversity and increased resolution of the phylogenetic trees. We found that a group of Teleki accessions position together with the wild grape species V. riparia. Another group of Teleki rootstocks formed a sister group to the other North American species V. berlandieri. These clades had moderate support values, and they do not share ancestry with other accessions of Teleki rootstocks resolved with high support value in the V. riparia clade. It seems that Teleki-Kober 5BB and 125 AA accessions might have a V. berlandieri maternal background. We also found great differences within putative clones of Teleki 5C and Teleki-Kober 5BB suggesting that the selection of these accessions was performed on heterogenous or mislabeled plant material collectively maintained under these names.