New grass phylogeny resolves deep evolutionary relationships and discovers C 4 origins

New grass phylogeny resolves deep evolutionary relationships and discovers C 4 origins

Grasses rank among the world's most ecologically and economically important plants. Repeated evolution of the C4 syndrome has made photosynthesis highly efficient in many grasses, inspiring intensive efforts to engineer the pathway into C3 crops. However, comparative biology has been of limited use to this endeavor because of uncertainty in the number and phylogenetic placement of C4 origins. We built the most comprehensive and robust molecular phylogeny for grasses to date, expanding sampling efforts of a previous working group from 62 to 531 taxa, emphasizing the C4-rich PACMAD [Panicoideae, Arundinoideae, Chloridoideae, Micrairoideae, Aristidoideae and Danthonioideae] clade. Our final matrix comprises c. 5700bp and is greater than 93 percent complete. For the first time, we present strong support for relationships among all the major grass lineages. Several new C4 lineages are identified, and previously inferred origins confirmed. C 3/C4 evolutionary transitions have been highly asymmetrical, with 22-24 inferred origins of the C4 pathway and only one potential reversal. Our backbone tree clarifies major outstanding systematic questions and highlights C3 and C4 sister taxa for comparative studies. Two lineages have emerged as hotbeds of C4 evolution. Future work in these lineages will be instrumental in understanding the evolution of this complex trait.

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Main Authors: Aliscioni, Sandra Silvina, Bell, Hester L., Besnard, Guillaume, Christin, Pascal Antoine, Columbus, J. Travis, Duvall, Melvin R., Edwards, Erika J., Giussani, Liliana, Hasenstab Lehman, Kristen, Hilu, Khidir W., Hodkinson, Trevor R., Ingram, Amanda L., Kellogg, Elizabeth A., Mashayekhi, Sacideh, Morrone, Osvaldo, Osborne, Colin P., Salamin, Nicolás, Schaefer, Hanno, Spriggs, Elizabeth, Smith, Stephen A., Zuloaga, Fernando O.
Format: Texto biblioteca
Language:eng
Subjects:C 4 PHOTOSYNTHESIS, CHARACTER EVOLUTION, PHYLOGENY, POACEAE, STATE-DEPENDENT DIVERSIFICATION, CARBON, COMPARATIVE STUDY, EVOLUTIONARY BIOLOGY, GRASS, MOLECULAR ANALYSIS, PHOTOSYNTHESIS, PHYLOGENETICS, EVOLUTION, GENETICS, METABOLISM, SPECIES DIFFERENCE, BIOLOGICAL EVOLUTION, SPECIES SPECIFICITY, ARISTIDOIDEAE, ARUNDINOIDEAE, CHLORIDOIDEAE, DANTHONIOIDEAE, MICRAIROIDEAE, PANICOIDEAE,
Online Access:http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46713
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spelling KOHA-OAI-AGRO:467132023-04-19T15:02:44Zhttp://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46713AAGNew grass phylogeny resolves deep evolutionary relationships and discovers C 4 originsAliscioni, Sandra SilvinaBell, Hester L.Besnard, GuillaumeChristin, Pascal AntoineColumbus, J. TravisDuvall, Melvin R.Edwards, Erika J.Giussani, LilianaHasenstab Lehman, KristenHilu, Khidir W.Hodkinson, Trevor R.Ingram, Amanda L.Kellogg, Elizabeth A.Mashayekhi, SacidehMorrone, OsvaldoOsborne, Colin P.Salamin, NicolásSchaefer, HannoSpriggs, ElizabethSmith, Stephen A.Zuloaga, Fernando O.textengapplication/pdfGrasses rank among the world's most ecologically and economically important plants. Repeated evolution of the C4 syndrome has made photosynthesis highly efficient in many grasses, inspiring intensive efforts to engineer the pathway into C3 crops. However, comparative biology has been of limited use to this endeavor because of uncertainty in the number and phylogenetic placement of C4 origins. We built the most comprehensive and robust molecular phylogeny for grasses to date, expanding sampling efforts of a previous working group from 62 to 531 taxa, emphasizing the C4-rich PACMAD [Panicoideae, Arundinoideae, Chloridoideae, Micrairoideae, Aristidoideae and Danthonioideae] clade. Our final matrix comprises c. 5700bp and is greater than 93 percent complete. For the first time, we present strong support for relationships among all the major grass lineages. Several new C4 lineages are identified, and previously inferred origins confirmed. C 3/C4 evolutionary transitions have been highly asymmetrical, with 22-24 inferred origins of the C4 pathway and only one potential reversal. Our backbone tree clarifies major outstanding systematic questions and highlights C3 and C4 sister taxa for comparative studies. Two lineages have emerged as hotbeds of C4 evolution. Future work in these lineages will be instrumental in understanding the evolution of this complex trait. Grasses rank among the world's most ecologically and economically important plants. Repeated evolution of the C4 syndrome has made photosynthesis highly efficient in many grasses, inspiring intensive efforts to engineer the pathway into C3 crops. However, comparative biology has been of limited use to this endeavor because of uncertainty in the number and phylogenetic placement of C4 origins. We built the most comprehensive and robust molecular phylogeny for grasses to date, expanding sampling efforts of a previous working group from 62 to 531 taxa, emphasizing the C4-rich PACMAD [Panicoideae, Arundinoideae, Chloridoideae, Micrairoideae, Aristidoideae and Danthonioideae] clade. Our final matrix comprises c. 5700bp and is greater than 93 percent complete. For the first time, we present strong support for relationships among all the major grass lineages. Several new C4 lineages are identified, and previously inferred origins confirmed. C 3/C4 evolutionary transitions have been highly asymmetrical, with 22-24 inferred origins of the C4 pathway and only one potential reversal. Our backbone tree clarifies major outstanding systematic questions and highlights C3 and C4 sister taxa for comparative studies. Two lineages have emerged as hotbeds of C4 evolution. Future work in these lineages will be instrumental in understanding the evolution of this complex trait. C 4 PHOTOSYNTHESISCHARACTER EVOLUTIONPHYLOGENYPOACEAESTATE-DEPENDENT DIVERSIFICATIONCARBONCOMPARATIVE STUDYEVOLUTIONARY BIOLOGYGRASSMOLECULAR ANALYSISPHOTOSYNTHESISPHYLOGENETICSEVOLUTIONGENETICSMETABOLISMSPECIES DIFFERENCEBIOLOGICAL EVOLUTIONSPECIES SPECIFICITYARISTIDOIDEAEARUNDINOIDEAECHLORIDOIDEAEDANTHONIOIDEAEMICRAIROIDEAEPANICOIDEAENew Phytologist
institution UBA FA
collection Koha
country Argentina
countrycode AR
component Bibliográfico
access En linea
En linea
databasecode cat-ceiba
tag biblioteca
region America del Sur
libraryname Biblioteca Central FAUBA
language eng
topic C 4 PHOTOSYNTHESIS
CHARACTER EVOLUTION
PHYLOGENY
POACEAE
STATE-DEPENDENT DIVERSIFICATION
CARBON
COMPARATIVE STUDY
EVOLUTIONARY BIOLOGY
GRASS
MOLECULAR ANALYSIS
PHOTOSYNTHESIS
PHYLOGENETICS
EVOLUTION
GENETICS
METABOLISM
SPECIES DIFFERENCE
BIOLOGICAL EVOLUTION
SPECIES SPECIFICITY
ARISTIDOIDEAE
ARUNDINOIDEAE
CHLORIDOIDEAE
DANTHONIOIDEAE
MICRAIROIDEAE
PANICOIDEAE
C 4 PHOTOSYNTHESIS
CHARACTER EVOLUTION
PHYLOGENY
POACEAE
STATE-DEPENDENT DIVERSIFICATION
CARBON
COMPARATIVE STUDY
EVOLUTIONARY BIOLOGY
GRASS
MOLECULAR ANALYSIS
PHOTOSYNTHESIS
PHYLOGENETICS
EVOLUTION
GENETICS
METABOLISM
SPECIES DIFFERENCE
BIOLOGICAL EVOLUTION
SPECIES SPECIFICITY
ARISTIDOIDEAE
ARUNDINOIDEAE
CHLORIDOIDEAE
DANTHONIOIDEAE
MICRAIROIDEAE
PANICOIDEAE
spellingShingle C 4 PHOTOSYNTHESIS
CHARACTER EVOLUTION
PHYLOGENY
POACEAE
STATE-DEPENDENT DIVERSIFICATION
CARBON
COMPARATIVE STUDY
EVOLUTIONARY BIOLOGY
GRASS
MOLECULAR ANALYSIS
PHOTOSYNTHESIS
PHYLOGENETICS
EVOLUTION
GENETICS
METABOLISM
SPECIES DIFFERENCE
BIOLOGICAL EVOLUTION
SPECIES SPECIFICITY
ARISTIDOIDEAE
ARUNDINOIDEAE
CHLORIDOIDEAE
DANTHONIOIDEAE
MICRAIROIDEAE
PANICOIDEAE
C 4 PHOTOSYNTHESIS
CHARACTER EVOLUTION
PHYLOGENY
POACEAE
STATE-DEPENDENT DIVERSIFICATION
CARBON
COMPARATIVE STUDY
EVOLUTIONARY BIOLOGY
GRASS
MOLECULAR ANALYSIS
PHOTOSYNTHESIS
PHYLOGENETICS
EVOLUTION
GENETICS
METABOLISM
SPECIES DIFFERENCE
BIOLOGICAL EVOLUTION
SPECIES SPECIFICITY
ARISTIDOIDEAE
ARUNDINOIDEAE
CHLORIDOIDEAE
DANTHONIOIDEAE
MICRAIROIDEAE
PANICOIDEAE
Aliscioni, Sandra Silvina
Bell, Hester L.
Besnard, Guillaume
Christin, Pascal Antoine
Columbus, J. Travis
Duvall, Melvin R.
Edwards, Erika J.
Giussani, Liliana
Hasenstab Lehman, Kristen
Hilu, Khidir W.
Hodkinson, Trevor R.
Ingram, Amanda L.
Kellogg, Elizabeth A.
Mashayekhi, Sacideh
Morrone, Osvaldo
Osborne, Colin P.
Salamin, Nicolás
Schaefer, Hanno
Spriggs, Elizabeth
Smith, Stephen A.
Zuloaga, Fernando O.
New grass phylogeny resolves deep evolutionary relationships and discovers C 4 origins
description Grasses rank among the world's most ecologically and economically important plants. Repeated evolution of the C4 syndrome has made photosynthesis highly efficient in many grasses, inspiring intensive efforts to engineer the pathway into C3 crops. However, comparative biology has been of limited use to this endeavor because of uncertainty in the number and phylogenetic placement of C4 origins. We built the most comprehensive and robust molecular phylogeny for grasses to date, expanding sampling efforts of a previous working group from 62 to 531 taxa, emphasizing the C4-rich PACMAD [Panicoideae, Arundinoideae, Chloridoideae, Micrairoideae, Aristidoideae and Danthonioideae] clade. Our final matrix comprises c. 5700bp and is greater than 93 percent complete. For the first time, we present strong support for relationships among all the major grass lineages. Several new C4 lineages are identified, and previously inferred origins confirmed. C 3/C4 evolutionary transitions have been highly asymmetrical, with 22-24 inferred origins of the C4 pathway and only one potential reversal. Our backbone tree clarifies major outstanding systematic questions and highlights C3 and C4 sister taxa for comparative studies. Two lineages have emerged as hotbeds of C4 evolution. Future work in these lineages will be instrumental in understanding the evolution of this complex trait.
format Texto
topic_facet C 4 PHOTOSYNTHESIS
CHARACTER EVOLUTION
PHYLOGENY
POACEAE
STATE-DEPENDENT DIVERSIFICATION
CARBON
COMPARATIVE STUDY
EVOLUTIONARY BIOLOGY
GRASS
MOLECULAR ANALYSIS
PHOTOSYNTHESIS
PHYLOGENETICS
EVOLUTION
GENETICS
METABOLISM
SPECIES DIFFERENCE
BIOLOGICAL EVOLUTION
SPECIES SPECIFICITY
ARISTIDOIDEAE
ARUNDINOIDEAE
CHLORIDOIDEAE
DANTHONIOIDEAE
MICRAIROIDEAE
PANICOIDEAE
author Aliscioni, Sandra Silvina
Bell, Hester L.
Besnard, Guillaume
Christin, Pascal Antoine
Columbus, J. Travis
Duvall, Melvin R.
Edwards, Erika J.
Giussani, Liliana
Hasenstab Lehman, Kristen
Hilu, Khidir W.
Hodkinson, Trevor R.
Ingram, Amanda L.
Kellogg, Elizabeth A.
Mashayekhi, Sacideh
Morrone, Osvaldo
Osborne, Colin P.
Salamin, Nicolás
Schaefer, Hanno
Spriggs, Elizabeth
Smith, Stephen A.
Zuloaga, Fernando O.
author_facet Aliscioni, Sandra Silvina
Bell, Hester L.
Besnard, Guillaume
Christin, Pascal Antoine
Columbus, J. Travis
Duvall, Melvin R.
Edwards, Erika J.
Giussani, Liliana
Hasenstab Lehman, Kristen
Hilu, Khidir W.
Hodkinson, Trevor R.
Ingram, Amanda L.
Kellogg, Elizabeth A.
Mashayekhi, Sacideh
Morrone, Osvaldo
Osborne, Colin P.
Salamin, Nicolás
Schaefer, Hanno
Spriggs, Elizabeth
Smith, Stephen A.
Zuloaga, Fernando O.
author_sort Aliscioni, Sandra Silvina
title New grass phylogeny resolves deep evolutionary relationships and discovers C 4 origins
title_short New grass phylogeny resolves deep evolutionary relationships and discovers C 4 origins
title_full New grass phylogeny resolves deep evolutionary relationships and discovers C 4 origins
title_fullStr New grass phylogeny resolves deep evolutionary relationships and discovers C 4 origins
title_full_unstemmed New grass phylogeny resolves deep evolutionary relationships and discovers C 4 origins
title_sort new grass phylogeny resolves deep evolutionary relationships and discovers c 4 origins
url http://ceiba.agro.uba.ar/cgi-bin/koha/opac-detail.pl?biblionumber=46713
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