Molecular Systematics of Gagea and Lloydia (Liliaceae; Liliales): Implications of Analyses of Nuclear Ribosomal and Plastid DNA Sequences for Infrageneric Classification

Overview

Journal Ann Bot

Publisher Oxford University Press

Specialty Biology

Date 2009 May 20

PMID 19451146

Citations 9

Authors

M Zarrei

P Wilkin

M F Fay

M J Ingrouille

S Zarre

M W Chase

Affiliations

Soon will be listed here.

Abstract

Background And Aims: Gagea is a Eurasian genus of petaloid monocots, with a few species in North Africa, comprising between 70 and approximately 275 species depending on the author. Lloydia (thought to be the closest relative of Gagea) consists of 12-20 species that have a mostly eastern Asian distribution. Delimitation of these genera and their subdivisions are unresolved questions in Liliaceae taxonomy. The objective of this study is to evaluate generic and infrageneric circumscription of Gagea and Lloydia using DNA sequence data.

Methods: A phylogenetic study of Gagea and Lloydia (Liliaceae) was conducted using sequences of nuclear ribosomal internal transcribed spacer (ITS) and plastid (rpl16 intron, trnL intron, trnL-F spacer, matK and the psbA-trnH spacer) DNA regions. This included 149 accessions (seven as outgroups), with multiple accessions of some taxa; 552 sequences were included, of which 393 were generated as part of this research.

Key Results: A close relationship of Gagea and Lloydia was confirmed in analyses using different datasets, but neither Gagea nor Lloydia forms a monophyletic group as currently circumscribed; however, the ITS and plastid analyses did not produce congruent results for the placement of Lloydia relative to the major groups within Gagea. Gagea accessions formed five moderately to strongly supported clades in all trees, with most Lloydia taxa positioned at the basal nodes; in the strict consensus trees from the combined data a basal polytomy occurs. There is limited congruence between the classical, morphology-derived infrageneric taxonomy in Gagea (including Lloydia) and clades in the present phylogenetic analyses.

Conclusions: The analyses support monophyly of Gagea/Lloydia collectively, and they clearly comprise a single lineage, as some previous authors have hypothesized. The results provide the basis for a new classification of Gagea that has support from some morphological features. Incongruence between plastid and nuclear ITS results is interpreted as potentially due to ancient hybridization and/or paralogy of ITS rDNA.

Citing Articles

Taxonomic implications of leaf morphology and epidermal anatomy for 14 species of Gagea (Liliaceae) from Xinjiang, China.

Qiu J, Lin M, Tan D Bot Stud. 2023; 64(1):33.

PMID: 38017242 PMC: 10684841. DOI: 10.1186/s40529-023-00405-9.

Palynological features and taxonomic significance for 16 species of (Liliaceae) from Xinjiang, China.

Lin M, Qiu J, Xie K, Tan D PhytoKeys. 2023; 225:53-68.

PMID: 37213818 PMC: 10194809. DOI: 10.3897/phytokeys.225.101518.

Phylogeny and Comparative Analysis for the Plastid Genomes of Five (Liliaceae).

Li J, Price M, Su D, Zhang Z, Yu Y, Xie D Biomed Res Int. 2021; 2021:6648429.

PMID: 34239930 PMC: 8235973. DOI: 10.1155/2021/6648429.

A pre-Miocene Irano-Turanian cradle: Origin and diversification of the species-rich monocot genus (Liliaceae).

Peterson A, Harpke D, Peterson J, Harpke A, Peruzzi L Ecol Evol. 2019; 9(10):5870-5890.

PMID: 31161005 PMC: 6540665. DOI: 10.1002/ece3.5170.

Studies of life history of Gagea graeca (Liliaceae) based on morphological and molecular methods.

Schnittler M, Nursafina A, Peterson A, Peterson J, Barnick C, Klahr A Bot Stud. 2017; 58(1):40.

PMID: 28975526 PMC: 5626670. DOI: 10.1186/s40529-017-0194-6.

References

Cameron K, Chase M, Anderson W, Hills H . Molecular systematics of Malpighiaceae: evidence from plastid rbcL and matK sequences. Am J Bot. 2011; 88(10):1847-62. View

Wendel J, Schnabel A, Seelanan T . An unusual ribosomal DNA sequence from Gossypium gossypioides reveals ancient, cryptic, intergenomic introgression. Mol Phylogenet Evol. 1995; 4(3):298-313. DOI: 10.1006/mpev.1995.1027. View

Sun Y, Skinner D, Liang G, Hulbert S . Phylogenetic analysis of Sorghum and related taxa using internal transcribed spacers of nuclear ribosomal DNA. Theor Appl Genet. 2013; 89(1):26-32. DOI: 10.1007/BF00226978. View

Whitten W, Williams N, Chase M . Subtribal and generic relationships of Maxillarieae (Orchidaceae) with emphasis on Stanhopeinae: combined molecular evidence. Am J Bot. 2000; 87(12):1842-56. View

Felsenstein J . CONFIDENCE LIMITS ON PHYLOGENIES: AN APPROACH USING THE BOOTSTRAP. Evolution. 2017; 39(4):783-791. DOI: 10.1111/j.1558-5646.1985.tb00420.x. View

Sang T, Crawford D, Stuessy T . Chloroplast DNA phylogeny, reticulate evolution, and biogeography of Paeonia (Paeoniaceae). Am J Bot. 2011; 84(8):1120. View

Alvarez I, Wendel J . Ribosomal ITS sequences and plant phylogenetic inference. Mol Phylogenet Evol. 2003; 29(3):417-34. DOI: 10.1016/s1055-7903(03)00208-2. View

Reeves G, Chase M, Goldblatt P, Rudall P, Fay M, Cox A . Molecular systematics of Iridaceae: evidence from four plastid DNA regions. Am J Bot. 2011; 88(11):2074-87. View

Huelsenbeck J, Bull J, Cunningham C . Combining data in phylogenetic analysis. Trends Ecol Evol. 2011; 11(4):152-8. DOI: 10.1016/0169-5347(96)10006-9. View

10.

Taberlet P, Gielly L, Pautou G, Bouvet J . Universal primers for amplification of three non-coding regions of chloroplast DNA. Plant Mol Biol. 1991; 17(5):1105-9. DOI: 10.1007/BF00037152. View

11.

Ronsted N, Law S, Thornton H, Fay M, Chase M . Molecular phylogenetic evidence for the monophyly of Fritillaria and Lilium (Liliaceae; Liliales) and the infrageneric classification of Fritillaria. Mol Phylogenet Evol. 2005; 35(3):509-27. DOI: 10.1016/j.ympev.2004.12.023. View

12.

Chase M, Knapp S, Cox A, Clarkson J, Butsko Y, Joseph J . Molecular systematics, GISH and the origin of hybrid taxa in Nicotiana (Solanaceae). Ann Bot. 2003; 92(1):107-27. PMC: 4243627. DOI: 10.1093/aob/mcg087. View

13.

Yoder A, Irwin J, Payseur B . Failure of the ILD to determine data combinability for slow loris phylogeny. Syst Biol. 2002; 50(3):408-24. View

14.

Winship P . An improved method for directly sequencing PCR amplified material using dimethyl sulphoxide. Nucleic Acids Res. 1989; 17(3):1266. PMC: 331767. DOI: 10.1093/nar/17.3.1266. View

15.

Peterson A, Levichev I, Peterson J . Systematics of Gagea and Lloydia (Liliaceae) and infrageneric classification of Gagea based on molecular and morphological data. Mol Phylogenet Evol. 2008; 46(2):446-65. DOI: 10.1016/j.ympev.2007.11.016. View

16.

Patterson T, Givnish T . Phylogeny, concerted convergence, and phylogenetic niche conservatism in the core Liliales: insights from rbcL and ndhF sequence data. Evolution. 2002; 56(2):233-52. DOI: 10.1111/j.0014-3820.2002.tb01334.x. View