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      Complete chloroplast genome of eight Phaius (Orchidaceae) species from China: comparative analysis and phylogenetic relationship

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          Abstract

          Background

          Phaius Lour. (Collabieae, Orchidaceae) is a small genus consisting of about 45 species, with highly ornamental and medicinal values. However, the phylogenetic relationship of Phaius among Calanthe s. l. has been highly debated based on morphological and molecular data. The complete chloroplast (cp) genome has been widely used as a useful molecular marker for resolving phylogenetic problems, while few genomic data on Phaius was available. Therefore, complete cp genomes of eight Phaius species were sequenced and characterized in detail to provide a better understanding of its phylogenetics in Calanthe s. l.

          Results

          The cp genomes of eight species investigated exhibited conserved quadripartite structures with varied lengths ranging between 157,997 bp to 158,735 bp. The overall GC content of these genomes ranged between 36.82 and 36.97%. Gene annotation revealed 136 genes in all eight genomes, of which 21 were duplicated in inverted regions and 15 with introns. Comparative analysis of eight cp genomes revealed stable sequence identity with greater variation in the single-copy regions, alongside notable differences in the genes at the LSC/IRb and IRb/SSC junctions, as well as in the number of SSRs. The phylogenetic analysis based on CDS from 49 complete cp genomes of Collabieae indicated that the eight Phaius species, together with other two species P. philippinensis and P. hainanensis, were clustered into a monophyletic clade among Calanthe s. l. and divided into two subclades with strong supports. Additionally, it was also supported that Calanthe s. l. should be divided into five genera with strong supports, including Calanthe s. s., Cephalantheropsis, Styloglossum, Phaius, and Preptanthe.

          Conclusions

          It was the first report on the complete cp genome of six Phaius species ( P. columnaris, P. mishmensis, P. takeoi, P. tonkinensis, P. wallichii and P. wenshanensis) and has been comparatively analyzed in detail with P. flavus and P. tancarvilleae. It provided a comprehensive investigation of various cp genomic features for phylogenetic implications, including overall genome structure, codon usage, repeat sequences, IR boundaries, DNA polymorphisms, and phylogenetic reconstruction. It was suggested that Phaius and Calanthe s. s. should be treated as two independent genera. The concept of new genus Paraphaius was not confirmed by complete cp genomic data here. The intergeneric relationship of Phaius and its alliance in Calanthe group could be understood better by more cp genomic data.

          Supplementary Information

          The online version contains supplementary material available at 10.1186/s12870-024-06040-1.

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          Most cited references76

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          MAFFT Multiple Sequence Alignment Software Version 7: Improvements in Performance and Usability

          We report a major update of the MAFFT multiple sequence alignment program. This version has several new features, including options for adding unaligned sequences into an existing alignment, adjustment of direction in nucleotide alignment, constrained alignment and parallel processing, which were implemented after the previous major update. This report shows actual examples to explain how these features work, alone and in combination. Some examples incorrectly aligned by MAFFT are also shown to clarify its limitations. We discuss how to avoid misalignments, and our ongoing efforts to overcome such limitations.
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            fastp: an ultra-fast all-in-one FASTQ preprocessor

            Abstract Motivation Quality control and preprocessing of FASTQ files are essential to providing clean data for downstream analysis. Traditionally, a different tool is used for each operation, such as quality control, adapter trimming and quality filtering. These tools are often insufficiently fast as most are developed using high-level programming languages (e.g. Python and Java) and provide limited multi-threading support. Reading and loading data multiple times also renders preprocessing slow and I/O inefficient. Results We developed fastp as an ultra-fast FASTQ preprocessor with useful quality control and data-filtering features. It can perform quality control, adapter trimming, quality filtering, per-read quality pruning and many other operations with a single scan of the FASTQ data. This tool is developed in C++ and has multi-threading support. Based on our evaluation, fastp is 2–5 times faster than other FASTQ preprocessing tools such as Trimmomatic or Cutadapt despite performing far more operations than similar tools. Availability and implementation The open-source code and corresponding instructions are available at https://github.com/OpenGene/fastp.
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              MrBayes 3.2: Efficient Bayesian Phylogenetic Inference and Model Choice Across a Large Model Space

              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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                Author and article information

                Contributors
                luoyan@xtbg.org.cn
                lilu@swfu.edu.cn
                Journal
                BMC Plant Biol
                BMC Plant Biol
                BMC Plant Biology
                BioMed Central (London )
                1471-2229
                10 January 2025
                10 January 2025
                2025
                : 25
                : 37
                Affiliations
                [1 ]College of Forestry, Southwest Forestry University, ( https://ror.org/03dfa9f06) Kunming, Yunnan, 650224 China
                [2 ]Yunnan Academy of Biodiversity, Southwest Forestry University, ( https://ror.org/03dfa9f06) Kunming, Yunnan, 650224 China
                [3 ]Center for Gardening and Horticulture, Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences, ( https://ror.org/034t30j35) Mengla, Yunnan, 666303 China
                [4 ]Southeast Asia Biodiversity Research Institute, Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences & Center for Integrative Conservation, Chinese Academy of Sciences, ( https://ror.org/034t30j35) Mengla, Yunnan, 666303 China
                Article
                6040
                10.1186/s12870-024-06040-1
                11720967
                39789450
                b8ebd3a0-df7c-43d4-9995-f07e8da479ba
                © The Author(s) 2025

                Open Access This article is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License, which permits any non-commercial use, sharing, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if you modified the licensed material. You do not have permission under this licence to share adapted material derived from this article or parts of it. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by-nc-nd/4.0/.

                History
                : 27 September 2024
                : 31 December 2024
                Funding
                Funded by: National Nature Science Foundation of China
                Award ID: 32270225
                Award ID: 32060049
                Categories
                Research
                Custom metadata
                © BioMed Central Ltd., part of Springer Nature 2025

                Plant science & Botany
                orchidaceae,phaius,phylogenetic relationship,chloroplast genome,intergenetic delimitation

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