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Inverted repeat-lacking clade

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Inverted repeat-lacking clade
Galega officinalis
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Fabales
Family: Fabaceae
Subfamily: Faboideae
Clade: Meso-Papilionoideae
Clade: Non-protein amino acid-accumulating clade
Clade: Hologalegina
Clade: Inverted repeat-lacking clade
(Wojciechowski et al. 2000,[1] 2004[2]) Wojciechowski 2013[3]
Tribes[1][5]
Synonyms
  • Galegeae sensu lato sensu Polhill, 1981
  • IR-lacking clade
  • IRLC
  • Temperate herbaceous clade
  • THC

The inverted repeat-lacking clade (IRLC) is a monophyletic clade of the flowering plant subfamily Faboideae (or Papilionaceae). Faboideae includes the majority of agriculturally-cultivated legumes. The name of this clade is informal and is not assumed to have any particular taxonomic rank like the names authorized by the ICBN or the ICPN.[3] The clade is characterized by the loss of one of the two 25-kb inverted repeats in the plastid genome that are found in most land plants.[6] It is consistently resolved in molecular phylogenies.[1][2][5][6][7][8][9][10][11][12][13] The clade is predicted to have diverged from the other legume lineages 39.0±2.4 million years ago (in the Eocene).[14] It includes several large, temperate genera such as Astragalus, Hedysarum, Medicago, Oxytropis, Swainsona, and Trifolium.

Description

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This clade is composed of five traditional tribes (Cicereae, Fabeae, Galegeae, Hedysareae, and Trifolieae) and several genera that were traditionally placed in the tribe Millettieae: Afgekia, Callerya, Endosamara, Sarcodum, Wisteria, and possibly Antheroporum.[3] The first five of these genera have been transferred to the tribe Wisterieae, so that as revised, the tribe Millettieae falls outside the IRLC clade.[4] The clade is defined as:

"The most inclusive crown clade exhibiting the structural mutation in the plastid genome (loss of one copy of the ~25-kb inverted repeat region) homologous with that found in Galega officinalis, Glycyrrhiza lepidota, and Vicia faba, where these taxa are extant species included in the crown clade defined by this name."[3]

Uses

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This clade includes edible plants such as garden peas, lentils, chickpeas, licorice, alfafa, among others.

References

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  1. ^ a b c Wojciechowski MF, Sanderson MJ, Steele KP, Liston A (2000). "Molecular phylogeny of the "temperate herbaceous tribes" of papilionoid legumes: A supertree approach". In Herendeen PS, Bruneau A (eds.). Advances in Legume Systematics, Part 9. Kew, UK: Royal Botanic Gardens. pp. 277–298. ISBN 184246017X. Archived from the original (PDF) on 2014-01-16. Retrieved 2014-01-16.
  2. ^ a b Wojciechowski MF, Lavin M, Sanderson MJ (2004). "A phylogeny of legumes (Leguminosae) based on analysis of the plastid matK gene resolves many well-supported subclades within the family". Am J Bot. 91 (11): 1846–1862. doi:10.3732/ajb.91.11.1846. PMID 21652332.
  3. ^ a b c d Wojciechowski MF. (2013). "Towards a new classification of Leguminosae: Naming clades using non-Linnaean phylogenetic nomenclature". S Afr J Bot. 89: 85–93. doi:10.1016/j.sajb.2013.06.017.
  4. ^ a b Compton, James A.; Schrire, Brian D.; Könyves, Kálmán; Forest, Félix; Malakasi, Panagiota; Sawai Mattapha & Sirichamorn, Yotsawate (2019). "The Callerya Group redefined and Tribe Wisterieae (Fabaceae) emended based on morphology and data from nuclear and chloroplast DNA sequences". PhytoKeys (125): 1–112. doi:10.3897/phytokeys.125.34877. PMC 6610001. PMID 31303810.
  5. ^ a b Cardoso D, Pennington RT, de Queiroz LP, Boatwright JS, Van Wyk BE, Wojciechowski MF, Lavin M (2013). "Reconstructing the deep-branching relationships of the papilionoid legumes". S Afr J Bot. 89: 58–75. doi:10.1016/j.sajb.2013.05.001. hdl:10566/3193.
  6. ^ a b Lavin M, Doyle JJ, Palmer JD (1990). "Evolutionary significance of the loss of the chloroplast-DNA inverted repeat in the Leguminosae subfamily Papilionoideae" (PDF). Evolution. 44 (2): 390–402. doi:10.2307/2409416. hdl:2027.42/137404. JSTOR 2409416. PMID 28564377.
  7. ^ Liston A. (1995). "Use of the polymerase chain reaction to survey for the loss of the inverted repeat in the legume chloroplast genome". In Crisp MD, Doyle JJ (eds.). Advances in Legume Systematics, Part 7: Phylogeny. Kew, UK: Royal Botanic Gardens. pp. 31–40. ISBN 0947643796. Archived from the original on 2014-01-17. Retrieved 2014-01-16.
  8. ^ Käss E, Wink M (1996). "Molecular evolution of the Leguminosae: Phylogeny of the three subfamilies based on rbcL-sequences". Biochem Syst Ecol. 24 (5): 365–378. Bibcode:1996BioSE..24..365K. doi:10.1016/0305-1978(96)00032-4.
  9. ^ Sanderson MJ, Wojciechowski MF (1996). "Diversification rates in a temperate legume clade: Are there "so many species" of Astragalus (Fabaceae)?". Am J Bot. 83 (11): 1488–1502. doi:10.2307/2446103. JSTOR 2446103.
  10. ^ Doyle JJ, Doyle JL, Ballenger JA, Dickson EE, Kajita T, Ohashi H (1997). "A phylogeny of the chloroplast gene rbcL in the Leguminosae: Taxonomic correlations and insights into the evolution of nodulation". Am J Bot. 84 (4): 541–554. doi:10.2307/2446030. JSTOR 2446030. PMID 21708606.
  11. ^ Pennington RT, Lavin M, Ireland H, Klitgaard B, Preston J, Hu JM (2001). "Phylogenetic relationships of basal papilionoid legumes based upon sequences of the chloroplast trnL intron". Syst Bot. 26 (3): 537–556. doi:10.1043/0363-6445-26.3.537 (inactive 1 November 2024).{{cite journal}}: CS1 maint: DOI inactive as of November 2024 (link)
  12. ^ McMahon MM, Sanderson MJ (2006). "Phylogenetic supermatrix analysis of GenBank sequences from 2228 papilionoid legumes". Syst Biol. 55 (5): 818–836. doi:10.1080/10635150600999150. PMID 17060202.
  13. ^ Cardoso D, de Queiroz LP, Pennington RT, de Lima HC, Fonty É, Wojciechowski MF, Lavin M (2012). "Revisiting the phylogeny of papilionoid legumes: New insights from comprehensively sampled early-branching lineages". Am J Bot. 99 (12): 1991–2013. doi:10.3732/ajb.1200380. PMID 23221500.
  14. ^ Lavin M, Herendeen PS, Wojciechowski MF (2005). "Evolutionary rates analysis of Leguminosae implicates a rapid diversification of lineages during the tertiary". Syst Biol. 54 (4): 575–94. doi:10.1080/10635150590947131. PMID 16085576.
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