Nadja Diane scite author profile

In this study, we present the possibilities for calculating systematic relationships on higher taxonomical levels based exclusively on ITS1. This is demonstrated for Boraginales (Boraginaceae s.str., Cordiaceae, Ehretiaceae, Heliotropiaceae, Hydrophyllaceae and Lennoaceae). Secondary structure of the ITS1 region is more conserved than the primary structure (i.e., sequence itself) and is therefore a tool for optimizing alignments. It increases the number of structural characters. Information inferred from the secondary structure enables us to construct well‐resolved phylogenetic trees at higher taxonomic levels. A general secondary structure of ITS1 for Boraginales, with four major helices, is proposed here. In each subtaxon, derivations from this structure are found. The paraphyly of Boraginaceae s.l. is evident from both a comparison of secondary structures and from bootstrap analysis. Boraginaceae s.str. are the sister group of a clade formed by Hydrophyllaceae, Cordiaceae, Ehretiaceae, Heliotropiaceae and Lennoaceae. The last four taxa constitute a monophyletic group which is the sister group of Hydrophyllaceae. Lennoaceae are closely related to Ehretiaceae, and these two taxa in turn are the sister group of Cordiaceae.

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A systematic analysis of Heliotropiaceae (Boraginales) based on trnL and ITS1 sequence data

Hilger¹,

Diane²

2003

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A systematic analysis of Heliotropium, Tournefortia, and allied taxa of the Heliotropiaceae (Boraginales) based on ITS1 sequences and morphological data

Diane

Förther

Hilger

2002

American J of Botany

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The relationships of Heliotropium, Tournefortia, Schleidenia, Ixorhea, and Ceballosia of the Heliotropiaceae (Boraginaceae in the traditional sense, Boraginales) are investigated using molecular data (ITS1). These genera form a monophyletic group. Five clades can be distinguished on the basis of molecular data, morphological traits, and distribution. In their current circumscription, Tournefortia is polyphyletic and Heliotropium is paraphyletic. Tournefortia section Cyphocyema is the sister group to all other ingroup taxa. Heliotropium section Orthostachys including Schleidenia sensu lato is the well supported sister group of a clade comprising the other species of Heliotropium sensu stricto (s.s.), Tournefortia section Tournefortia, and Ceballosia. Heliotropium s.s. forms two clades: one clade includes all species of the Old World and represents the only monophylum of Heliotropium s.s. The other clade consists of all Heliotropium s.s. species of the New World but also includes Tournefortia section Tournefortia and Ceballosia. The results suggest that taxonomic changes are inevitable.

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Testing Hypotheses on Disjunctions Present in the Primarily Woody Boraginales: Ehretiaceae, Cordiaceae, and Heliotropiaceae, Inferred from ITS1 Sequence Data

Gottschling¹,

Diane²,

Hilger³

et al. 2004

International Journal of Plant Sciences

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Leaf anatomy and foliar trichomes in Heliotropiaceae and their systematic relevance

Diane

Jacob

Hilger

2003

Flora - Morphology, Distribution, Functional Ecology of Plants

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Nadja Diane

Secondary Structure of the ITS1 Transcript and its Application in a Reconstruction of the Phylogeny of Boraginales

A systematic analysis of Heliotropiaceae (Boraginales) based on trnL and ITS1 sequence data

A systematic analysis of Heliotropium, Tournefortia, and allied taxa of the Heliotropiaceae (Boraginales) based on ITS1 sequences and morphological data

Testing Hypotheses on Disjunctions Present in the Primarily Woody Boraginales: Ehretiaceae, Cordiaceae, and Heliotropiaceae, Inferred from ITS1 Sequence Data

Leaf anatomy and foliar trichomes in Heliotropiaceae and their systematic relevance

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