| Literature DB >> 17353990 |
Sumei Chen1, Kiyoshi Matsubara, Takahiro Omori, Hisashi Kokubun, Hiroaki Kodama, Hitoshi Watanabe, Goro Hashimoto, Eduardo Marchesi, Laura Bullrich, Toshio Ando.
Abstract
Polymerase chain reaction fragment length polymorphisms and nucleotide sequences for a cytochrome P450 gene encoding flavonoid-3',5'-hydroxylase, Hf1, were studied in 19 natural taxa of Petunia. Natural Petunia taxa were classified into six groups based on major insertion or deletion events that occurred only in intron II of the locus. The maximum parsimony method was used to calculate strict consensus trees based on nucleotide sequences in selected regions of the Hf1 locus. Petunia taxa were divided into two major clades in the phylogenetic trees. Petunia axillaris (including three subspecies), P. exserta, and P. occidentalis formed a clade with 100% bootstrap support. This clade is associated with a consistently inflexed pedicel, self-compatibility in most taxa, and geographical distribution in southern and western portions of the genus range. The other clade, which comprised the remainder of the genus is, however, less supported (up to 71% bootstrap); it is characterized by a deflexed pedicel in the fruiting state (except P. inflata), self-incompatibility, and a northeastern distribution. A nuclear gene, Hf1, seems to be a useful molecular marker for elucidating the phylogeny of the genus Petunia when compared with the nucleotide sequence of trnK intron of chloroplast DNA.Entities:
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Year: 2007 PMID: 17353990 DOI: 10.1007/s10265-006-0070-z
Source DB: PubMed Journal: J Plant Res ISSN: 0918-9440 Impact factor: 2.629