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Anthriscus Cerefolium Crithmum Maritimum Hydrocotyle Verticillata Petroselinum Crispum Tiedemannia Filiformis Greenmanii Crithmum Petroselinum

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Anthriscus Cerefolium Crithmum Maritimum Hydrocotyle Verticillata Petroselinum Crispum Tiedemannia Filiformis Greenmanii Crithmum Petroselinum 1 2 3 Anthriscus cerefolium Crithmum maritimum Hydrocotyle verticillata Petroselinum crispum Tiedemannia filiformis greenmanii Crithmum Petroselinum B Crithmum Petroselinum Petroselinum Petroselinum crispum Daucus carota Another first for the Apiaceae: evidence for mitochondrial DNA transfer into the plastid genome Plantarum Umbelliferarum Distributio Nova Coriandrum Conium maculatum Petroselinum crispum Anthriscus cerefolium Crithmum maritimum Hydrocotyle verticillata Petroselinum crispum S. R. DOWNIE, R. M. PEERY, R. K. JANSEN Tiedemannia filiformis greenmanii Petroselinum crispum was Daucus carota sativus Panax schin-seng Results Petroselinum Crithmum B Nicotiana tabacum Petroselinum rps19 rpl2 Crithmum rps19 rpl22 rps3 Petroselinum Crithmum Daucus Panax Another first for the Apiaceae: evidence for mitochondrial DNA transfer into the plastid genome Petroselinum Crithmum Petroselinum cob atp4 (ORF25 Daucus carota Crithmum D. carota SB B ycf1 ndhF ycf1 SB Table 1. a a 20 a 6 2 2 345 trnH S. R. DOWNIE, R. M. PEERY, R. K. JANSEN Figure 1. Petroselinum crispum B Another first for the Apiaceae: evidence for mitochondrial DNA transfer into the plastid genome Figure 2. B Crithmum Petroselinum B Nicotiana tabacum S. R. DOWNIE, R. M. PEERY, R. K. JANSEN Daucus carota Crithmum rpl16 rps3 Petroselinum rpl2 rps19. Petroselinum Crithmum . Figure 4. Petroselinum Crithmum trnH Petroselinum Daucus carota cob atp4 Crithmum D. carota Another first for the Apiaceae: evidence for mitochondrial DNA transfer into the plastid genome Discussion Crithmum Petroselinum Crithmum “Aegopodium Petroselinum Apium Coriandrum sativum Coriandrum trnH psbA trnH psbA S. R. DOWNIE, R. M. PEERY, R. K. JANSEN trnH Daucus carota Vitis vinifera cox1 Daucus carota rps12 trnV-GAC Anthriscus Daucus carota Dc D. carota Dc Daucus Cuminum Another first for the Apiaceae: evidence for mitochondrial DNA transfer into the plastid genome Dc Petroselinum cox1 cob-atp4 Dc S. R. DOWNIE, R. M. PEERY, R. K. JANSEN Petroselinum Anethum graveolens Carum carvi Coriandrum sativum, Foeniculum vulgare Another first for the Apiaceae: evidence for mitochondrial DNA transfer into the plastid genome References Daucus carota Euphytica Trends in Plant Science BioEssays The Biology and Chemistry of the Umbelliferae. Phytochemical Resources for Medicine and Agriculture. Molecular Systematics of Plants Systematic Botany Canadian Journal of Botany Edinburgh Journal of Botany Molecular and General Genetics Vitis vinifera Molecular Biology and Evolution S. R. DOWNIE, R. M. PEERY, R. K. JANSEN The Biology and Chemistry of the Umbelliferae. Mobile Genetic Elements De novo BMC Plant Biology Genomics of chloroplasts and mitochondria, advances in photosynthesis and respiration Expert Review of Clinical Immunology Panax schinseng DNA Research Annual Review of Plant Biology Catharanthus roseus PLoS ONE Current Genetics Plantarum Umbelliferarum Distributio Nova. Annual Review of Genetics Rhazya stricta . BMC Genomics Another first for the Apiaceae: evidence for mitochondrial DNA transfer into the plastid genome Systematic Botany Journal of Experimental Botany Trends in Ecology and Evolution Foeniculum vulgare Crithmum maritimum Planta Medica Chloroplast Biotechnology: Methods and Protocols Daucus carota BMC Genomics Vegetables II. Handbook of Plant Breeding, Vol. 2 Genome Biology and Evolution New Phytologist Genome Biology and Evolution Edinburgh Journal of Botany Plant Molecular Biology.
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  • Circumscription of Apiaceae Tribe Oenantheae
    South African Journal of Botany 2004, 70(3): 393–406 Copyright © NISC Pty Ltd Printed in South Africa — All rights reserved SOUTH AFRICAN JOURNAL OF BOTANY ISSN 0254–6299 Circumscription of Apiaceae tribe Oenantheae TM Hardway1, K Spalik2, MF Watson3, DS Katz-Downie1 and SR Downie1* 1 Department of Plant Biology, University of Illinois, Urbana 61801, United States of America 2 Department of Plant Systematics and Geography, Warsaw University, Aleje Ujazdowskie 4, 00-478 Warsaw, Poland 3 Royal Botanic Garden Edinburgh, 20A Inverleith Row, Edinburgh EH3 5LR, Scotland, United Kingdom * Corresponding author, email: [email protected] Received 18 August 2003, accepted in revised form 17 November 2003 Previous molecular systematic investigations into the Sium and Trepocarpus. Relationships inferred from higher-level relationships of Apiaceae subfamily phylogenetic analyses of nuclear rDNA ITS sequences Apioideae have revealed a strongly supported clade from 64 accessions representing all 17 genera reveal recognised as tribe Oenantheae Dumort. These plants that four genera are not monophyletic. Bifora and may have clusters of fibrous or tuberous-thickened Cryptotaenia have members that fall outside of the tribe; roots, corky-thickened fruits, and other adaptations for Berula and Sium each comprise two or more lineages existence in wet or aquatic habitats. In some species, within Oenantheae. The St Helena endemics, Sium the leaves may be finely dissected or linear-septate and bracteatum and S. burchellii, ally with African Berula much reduced. We have initiated collaborative studies erecta; this clade is sister to the African endemic to produce a comprehensive estimate of phylogeny of species Sium repandum and Afrocarum imbricatum, the tribe, but such investigations are thwarted because and this entire group is allied closely with north tem- information on the composition of the tribe is lacking.
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