Strong plastid degradation is consistent within section <i>Chondrophyllae</i>, the most speciose lineage of <i>Gentiana</i>

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Abstract

Recovering phylogenetic relationships in lineages experiencing intense diversification has always been a persistent challenge in evolutionary studies, including in Gentiana section Chondrophyllae sensu lato (s.l.). Indeed, this subcosmopolitan taxon encompasses more than 180 mostly annual species distributed around the world. We sequenced and assembled 22 new plastomes representing 21 species in section Chondrophyllae s.l. In addition to previously released plastome data, our study includes all main lineages within the section. We reconstructed their phylogenetic relationships based on protein‐coding genes and recombinant DNA (rDNA) cistron sequences, and then investigated plastome structural evolution as well as divergence time. Despite an admittedly humble species cover overall, we recovered a well‐supported phylogenetic tree based on plastome data, and found significant discordance between phylogenetic relationships and taxonomic treatments. Our results show that G. capitata and G. leucomelaena diverged early within the section, which is then further divided into two clades. The divergence time estimation showed that section Chondrophyllae s.l. evolved in the second half of the Oligocene. We found that section Chondrophyllae s.l. had the smallest average plastome size (128 KB) in tribe Gentianeae (Gentianaceae), with frequent gene and sequence losses such as the ndh complex and its flanking regions. In addition, we detected both expansion and contraction of the inverted repeat (IR) regions. Our study suggests that plastome degradation parallels the diversification of this group, and illustrates the strong discordance between phylogenetic relationships and taxonomic treatments, which now need to be carefully revised.

Abstract

Gentiana section Chondrophyllae sensu lato (s.l.) has undergone evolutionary radiation. Our study shows significant discordance between phylogenetic relationships and taxonomic treatments, and suggests that plastome degradation parallels the diversification of this group.

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IQ-TREE: A Fast and Effective Stochastic Algorithm for Estimating Maximum-Likelihood Phylogenies

Lam-Tung Nguyen, Heiko Schmidt, Arndt von Haeseler … (2014)

Large phylogenomics data sets require fast tree inference methods, especially for maximum-likelihood (ML) phylogenies. Fast programs exist, but due to inherent heuristics to find optimal trees, it is not clear whether the best tree is found. Thus, there is need for additional approaches that employ different search strategies to find ML trees and that are at the same time as fast as currently available ML programs. We show that a combination of hill-climbing approaches and a stochastic perturbation method can be time-efficiently implemented. If we allow the same CPU time as RAxML and PhyML, then our software IQ-TREE found higher likelihoods between 62.2% and 87.1% of the studied alignments, thus efficiently exploring the tree-space. If we use the IQ-TREE stopping rule, RAxML and PhyML are faster in 75.7% and 47.1% of the DNA alignments and 42.2% and 100% of the protein alignments, respectively. However, the range of obtaining higher likelihoods with IQ-TREE improves to 73.3-97.1%.

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MrBayes 3.2: Efficient Bayesian Phylogenetic Inference and Model Choice Across a Large Model Space

Fredrik Ronquist, Maxim Teslenko, Paul van der Mark … (2012)

Since its introduction in 2001, MrBayes has grown in popularity as a software package for Bayesian phylogenetic inference using Markov chain Monte Carlo (MCMC) methods. With this note, we announce the release of version 3.2, a major upgrade to the latest official release presented in 2003. The new version provides convergence diagnostics and allows multiple analyses to be run in parallel with convergence progress monitored on the fly. The introduction of new proposals and automatic optimization of tuning parameters has improved convergence for many problems. The new version also sports significantly faster likelihood calculations through streaming single-instruction-multiple-data extensions (SSE) and support of the BEAGLE library, allowing likelihood calculations to be delegated to graphics processing units (GPUs) on compatible hardware. Speedup factors range from around 2 with SSE code to more than 50 with BEAGLE for codon problems. Checkpointing across all models allows long runs to be completed even when an analysis is prematurely terminated. New models include relaxed clocks, dating, model averaging across time-reversible substitution models, and support for hard, negative, and partial (backbone) tree constraints. Inference of species trees from gene trees is supported by full incorporation of the Bayesian estimation of species trees (BEST) algorithms. Marginal model likelihoods for Bayes factor tests can be estimated accurately across the entire model space using the stepping stone method. The new version provides more output options than previously, including samples of ancestral states, site rates, site d N /d S rations, branch rates, and node dates. A wide range of statistics on tree parameters can also be output for visualization in FigTree and compatible software.

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ModelFinder: Fast Model Selection for Accurate Phylogenetic Estimates

Subha Kalyaanamoorthy, Bui Minh, Thomas Wong … (2017)

Model-based molecular phylogenetics plays an important role in comparisons of genomic data, and model selection is a key step in all such analyses. We present ModelFinder, a fast model-selection method that greatly improves the accuracy of phylogenetic estimates. The improvement is achieved by incorporating a model of rate-heterogeneity across sites not previously considered in this context, and by allowing concurrent searches of model-space and tree-space.

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Author and article information

Contributors

Shan‐Shan Sun:

ORCID: https://orcid.org/0000-0002-7463-006X

sss823129@126.com

Journal

Journal ID (nlm-ta): Ecol Evol

Journal ID (iso-abbrev): Ecol Evol

Journal ID (doi): 10.1002/(ISSN)2045-7758

Journal ID (publisher-id): ECE3

Title: Ecology and Evolution

Publisher: John Wiley and Sons Inc. (Hoboken )

ISSN (Electronic): 2045-7758

Publication date (Electronic): 15 August 2022

Publication date Collection: August 2022

Volume: 12

Issue: 8 ( doiID: 10.1002/ece3.v12.8 )

Electronic Location Identifier: e9205

Affiliations

[ ¹ ] School of Life Science, Luoyang Normal University Luoyang P. R. China

[ ² ] Key Laboratory of Adaptation and Evolution of Plateau Biota Northwest Institute of Plateau Biology, Chinese Academy of Sciences Xining P. R. China

[ ³ ] Senckenberg Research Institute and Natural History Museum Frankfurt am Main Germany

[ ⁴ ] Regional Nature Park of the Trient Valley Salvan Switzerland

Author notes

[*] [* ] Correspondence

Shan‐Shan Sun, School of Life Science, Luoyang Normal University, Luoyang, P. R. China.

Email: sss823129@ 123456126.com

Author information

Shan‐Shan Sun https://orcid.org/0000-0002-7463-006X

Adrien Favre https://orcid.org/0000-0001-6132-2992

Article

Publisher ID: ECE39205 Other ID: ECE-2022-04-00595.R2

DOI: 10.1002/ece3.9205

PMC ID: 9379351

PubMed ID: 35991284

SO-VID: 5d78f735-2adc-4ebe-bfe9-36949bf212cd

License:

This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

History

Date revision received : 20 July 2022

Date received : 23 April 2022

Date accepted : 22 July 2022

Page count

Figures: 6, Tables: 1, Pages: 12, Words: 7096

Funding

Funded by: Foundation of Educational Commission of Henan Province

Award ID: 22A180024

Funded by: German Science Foundation

Award ID: FA1117/1‐2

Funded by: National Natural Science Foundation of China , doi 10.13039/501100001809;

Award ID: 31600296

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source-schema-version-number 2.0

cover-date August 2022

details-of-publishers-convertor Converter:WILEY_ML3GV2_TO_JATSPMC version:6.1.7 mode:remove_FC converted:16.08.2022

ScienceOpen disciplines: Evolutionary Biology

Keywords: gentiana,phylogenomics,plastome,section chondrophyllae s.l.,taxonomic treatment

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ScienceOpen disciplines: Evolutionary Biology

Keywords: gentiana, phylogenomics, plastome, section chondrophyllae s.l., taxonomic treatment

Strong plastid degradation is consistent within section Chondrophyllae, the most speciose lineage of Gentiana

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Evolutionary Cell Biology

Most cited references 66

IQ-TREE: A Fast and Effective Stochastic Algorithm for Estimating Maximum-Likelihood Phylogenies

MrBayes 3.2: Efficient Bayesian Phylogenetic Inference and Model Choice Across a Large Model Space

ModelFinder: Fast Model Selection for Accurate Phylogenetic Estimates

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