Intergeneric Relationships within the Early-Diverging Angiosperm Family Nymphaeaceae Based on Chloroplast Phylogenomics

The order Nymphaeales, consisting of three families with a record of eight genera, has gained significant interest from botanists, probably due to its position as a basal angiosperm. The phylogenetic relationships within the order have been well studied; however, a few controversial nodes still remain in the Nymphaeaceae. The position of the Nuphar genus and the monophyly of the Nymphaeaceae family remain uncertain. This study adds to the increasing number of the completely sequenced plastid genomes of the Nymphaeales and applies a large chloroplast gene data set in reconstructing the intergeneric relationships within the Nymphaeaceae. Five complete chloroplast genomes were newly generated, including a first for the monotypic Euryale genus. Using a set of 66 protein-coding genes from the chloroplast genomes of 17 taxa, the phylogenetic position of Nuphar was determined and a monophyletic Nymphaeaceae family was obtained with convincing statistical support from both partitioned and unpartitioned data schemes. Although genomic comparative analyses revealed a high degree of synteny among the chloroplast genomes of the ancient angiosperms, key minor variations were evident, particularly in the contraction/expansion of the inverted-repeat regions and in RNA-editing events. Genome structure, and gene content and arrangement were highly conserved among the chloroplast genomes. The intergeneric relationships defined in this study are congruent with those inferred using morphological data.

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Resolution of Intergeneric Relationships within the Early-Diverging Angiosperm Family Nymphaeaceae Based on Chloroplast Phylogenomics

10.20944/preprints201811.0071.v1 ◽

2018 ◽

Author(s):

Dingxuan He ◽

Andrew W. Gichira ◽

Zhizhong Li ◽

John M. Nzei ◽

Youhao Guo ◽

...

Keyword(s):

Genome Structure ◽

Basal Angiosperm ◽

Phylogenetic Position ◽

Data Set ◽

Protein Coding ◽

Plastid Genomes ◽

Chloroplast Genomes ◽

Statistical Support ◽

Gene Data ◽

High Degree

The order Nymphaeales, consisting of three families with a record of eight genera, has gained significant interest from botanists probably due to its position as a basal-angiosperm. The phylogenetic relationships within the order have well been studied and resolved; however, a few controversial nodes still remain in the Nymphaeaceae including the position of the genus Nuphar. The position of the genus Nuphar and the monophyly of the Nymphaeaceae family remain uncertain. This study adds to the increasing number of completely sequenced plastid genomes of the Nymphaeales and applies large chloroplast gene data set in reconstructing the intergeneric relationships within the Nymphaeaceae. Five complete chloroplast genomes were newly generated, including a first one for the monotypic genus Euryale. Using a set of 66 protein coding genes from the chloroplast genomes of 17 taxa, the phylogenetic position of Nuphar was determined and a monophyletic Nymphaeaceae family was obtained with a convincing statistical support from both partitioned and unpartitioned data schemes. Although genomic comparative analyses revealed a high degree of synteny among the chloroplast genomes of the ancient angiosperms, key minor variations were evident particularly in the contraction/expansion of the Inverted Repeat regions and in RNA editing events. Genome structure, gene content and arrangement were highly conserved among the chloroplast genomes.

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Insights into phylogenetic relationships and genome evolution of subfamily Commelinoideae (Commelinaceae Mirb.) inferred from complete chloroplast genomes

BMC Genomics ◽

10.1186/s12864-021-07541-1 ◽

2021 ◽

Vol 22 (1) ◽

Author(s):

Joonhyung Jung ◽

Changkyun Kim ◽

Joo-Hwan Kim

Keyword(s):

Nucleotide Diversity ◽

Structural Variations ◽

Protein Coding ◽

Protein Coding Genes ◽

Chloroplast Protein ◽

Genome Data ◽

Plastid Genomes ◽

Chloroplast Genomes ◽

Current Classification

Abstract Background Commelinaceae (Commelinales) comprise 41 genera and are widely distributed in both the Old and New Worlds, except in Europe. The relationships among genera in this family have been suggested in several morphological and molecular studies. However, it is difficult to explain their relationships due to high morphological variations and low support values. Currently, many researchers have been using complete chloroplast genome data for inferring the evolution of land plants. In this study, we completed 15 new plastid genome sequences of subfamily Commelinoideae using the Mi-seq platform. We utilized genome data to reveal the structural variations and reconstruct the problematic positions of genera for the first time. Results All examined species of Commelinoideae have three pseudogenes (accD, rpoA, and ycf15), and the former two might be a synapomorphy within Commelinales. Only four species in tribe Commelineae presented IR expansion, which affected duplication of the rpl22 gene. We identified inversions that range from approximately 3 to 15 kb in four taxa (Amischotolype, Belosynapsis, Murdannia, and Streptolirion). The phylogenetic analysis using 77 chloroplast protein-coding genes with maximum parsimony, maximum likelihood, and Bayesian inference suggests that Palisota is most closely related to tribe Commelineae, supported by high support values. This result differs significantly from the current classification of Commelinaceae. Also, we resolved the unclear position of Streptoliriinae and the monophyly of Dichorisandrinae. Among the ten CDS (ndhH, rpoC2, ndhA, rps3, ndhG, ndhD, ccsA, ndhF, matK, and ycf1), which have high nucleotide diversity values (Pi > 0.045) and over 500 bp length, four CDS (ndhH, rpoC2, matK, and ycf1) show that they are congruent with the topology derived from 77 chloroplast protein-coding genes. Conclusions In this study, we provide detailed information on the 15 complete plastid genomes of Commelinoideae taxa. We identified characteristic pseudogenes and nucleotide diversity, which can be used to infer the family evolutionary history. Also, further research is needed to revise the position of Palisota in the current classification of Commelinaceae.

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Phylogenetic Position of the New World Quail (Odontophoridae): Eight Nuclear Loci and Three Mitochondrial Regions Contradict Morphology and the Sibley-Ahlquist Tapestry

The Auk ◽

10.1093/auk/124.1.71 ◽

2007 ◽

Vol 124 (1) ◽

pp. 71-84 ◽

Cited By ~ 5

Author(s):

W. Andrew Cox ◽

Rebecca T. Kimball ◽

Edward L. Braun

Keyword(s):

New World ◽

Sequence Data ◽

Evolutionary Relationship ◽

Strong Support ◽

Nuclear Data ◽

Morphological Data ◽

Phylogenetic Position ◽

Data Set ◽

Mitochondrial Data ◽

Nuclear Loci

Abstract The evolutionary relationship between the New World quail (Odontophoridae) and other groups of Galliformes has been an area of debate. In particular, the relationship between the New World quail and guineafowl (Numidinae) has been difficult to resolve. We analyzed >8 kb of DNA sequence data from 16 taxa that represent all major lineages of Galliformes to resolve the phylogenetic position of New World quail. A combined data set of eight nuclear loci and three mitochondrial regions analyzed with maximum parsimony, maximum likelihood, and Bayesian methods provide congruent and strong support for New World quail being basal members of a phasianid clade that excludes guineafowl. By contrast, the three mitochondrial regions exhibit modest incongruence with each other. This is reflected in the combined mitochondrial analyses that weakly support the Sibley-Ahlquist topology that placed the New World quail basal in relation to guineafowl and led to the placement of New World quail in its own family, sister to the Phasianidae. However, simulation-based topology tests using the mitochondrial data were unable to reject the topology suggested by our combined (mitochondrial and nuclear) data set. By contrast, similar tests using our most likely topology and our combined nuclear and mitochondrial data allow us to strongly reject the Sibley-Ahlquist topology and a topology based on morphological data that unites Old and New World quail. Posición Filogenética de las Codornices del Nuevo Mundo (Odontophoridae): Ocho Loci Nucleares y Tres Regiones Mitocondriales Contradicen la Morfología y la Filogenia de Sibley y Ahlquist

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Phylogeny, Molecules Versus Morphology, and Rates of Character Evolution Among Fruitbats (Chiroptera: Megachiroptera)

Australian Journal of Zoology ◽

10.1071/zo9950557 ◽

1995 ◽

Vol 43 (6) ◽

pp. 557 ◽

Cited By ~ 11

Author(s):

MS Springer ◽

LJ Hollar ◽

JAW Kirsch

Keyword(s):

Cladistic Analysis ◽

Strong Support ◽

Morphological Characters ◽

Character Evolution ◽

Morphological Data ◽

Phylogenetic Position ◽

Minimum Length ◽

Data Set ◽

Dna Hybridisation ◽

Phylogenetic Hypotheses

Andersen's 1912 monograph on megachiropterans remains the definitive work on the systematics of this group. Andersen argued that the Macroglossinae, containing the eonycterine and notopterine sections, are a monophyletic sister-group to other fruitbats (i.e. Andersen's Rousettus, Cynopterus and Epomophorus sections). Two recent molecular studies (DNA hybridisation and restriction mapping of ribosomal cistrons), as well as an analysis of female reproductive characters, challenge the monophyly of the Macroglossinae and several of Andersen's other conclusions such as the phylogenetic position of Nyctimene. We performed a cladistic analysis on 36 morphological characters, including 33 that were gleaned from Andersen, to determine whether phylogenetic hypotheses based on modem phylogenetic methods are in agreement with Andersen's original conclusions and to compare morphological and molecular phylogenetic hypotheses. Minimum-length trees based on parsimony are largely consistent with Andersen and support (1) a monophyletic Macroglossinae, within which the eonycterine section is paraphyletic with respect to a monophyletic notopterine section, (2) a monophyletic Cynopterus section, excepting the exclusion of Myonycteris, (3) a monophyletic Epomophorus section, excepting the exclusion of Plerotes, and (4) a paraphyletic Rousettus section, with several of the Rousettus-like forms branching off near the base of the tree. Bootstrapping analyses on a reduced data-set that included taxa shared in common with the DNA hybridisation study did not provide strong support (greater than or equal to 95%) for any clades but did provide moderate support (greater than or equal to 70) for several clades, including a monophyletic Macroglossinae. These findings are in marked contrast to the DNA hybridisation phylogeny. A high index of between-data-set incongruence is further evidence for the clash between DNA hybridisation and morphology. A phylogenetic framework was constructed on the basis of morphological data and DNA hybridisation data using a criterion of moderate support and shows little resolution, whereas employing a criterion of strong support produced a framework resolving several additional nodes. One implication of this framework is that characteristic macroglossine features such as a long tongue with a thick carpet of filiform papillae have evolved independently on several occasions (or evolved once and were lost several times). Rates of character evolution for the morphological characters employed in our analysis were calculated using divergence times estimated from DNA hybridisation data. Rates have apparently been fastest in the interior branches, and slower along the external branches, which suggests an early adaptive radiation in the history of fruitbats.

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Complete Plastome of Three Korean Asarum (Aristolochiaceae): Confirmation Tripartite Structure within Korean Asarum and Comparative Analyses

Plants ◽

10.3390/plants10102056 ◽

2021 ◽

Vol 10 (10) ◽

pp. 2056

Author(s):

Mi-Jeong Yoo ◽

Dong-Pil Jin ◽

Hyun-Oh Lee ◽

Chae Eun Lim

Keyword(s):

Ornamental Plants ◽

Illumina Miseq ◽

Single Copy ◽

Data Set ◽

Protein Coding ◽

Morphological Variations ◽

Oxford Nanopore ◽

Plastid Protein ◽

Gene Data ◽

Small Single Copy

The genus Asarum (Aristolochiaceae) is a well-known resource of medicinal and ornamental plants. However, the taxonomy of Korean Asarum is ambiguous due to their considerable morphological variations. Previously, a unique plastome structure has been reported from this genus. Therefore, we investigated the structural change in the plastomes within three Korean Asarum species and inferred their phylogenetic relationships. The plastome sizes of Asarum species assembled here range from 190,168 to 193,356 bp, which are longer than a typical plastome size (160 kb). This is due to the incorporation and duplication of the small single copy into the inverted repeat, which resulted in a unique tripartite structure. We first verified this unique structure using the Illumina Miseq and Oxford Nanopore MinION platforms. We also investigated the phylogeny of 26 Aristolochiaceae species based on 79 plastid protein-coding genes, which supports the monophyly of Korean Asarum species. Although the 79 plastid protein-coding gene data set showed some limitations in supporting the previous classification, it exhibits its effectiveness in delineating some sections and species. Thus, it can serve as an effective tool for resolving species-level phylogeny in Aristolochiaceae. Last, we evaluated variable sites and simple sequence repeats in the plastome as potential molecular markers for species delimitation.

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The Draft Genome of the Endangered Sichuan Partridge (Arborophila rufipectus) with Evolutionary Implications

Genes ◽

10.3390/genes10090677 ◽

2019 ◽

Vol 10 (9) ◽

pp. 677 ◽

Cited By ~ 1

Author(s):

Chuang Zhou ◽

Hongmei Tu ◽

Haoran Yu ◽

Shuai Zheng ◽

Bo Dai ◽

...

Keyword(s):

De Novo ◽

Genome Structure ◽

Draft Genome ◽

Enrichment Analysis ◽

Phylogenetic Position ◽

Nucleotide Polymorphisms ◽

Protein Coding ◽

Go Enrichment ◽

And Behavior ◽

Or Genes

The Sichuan partridge (Arborophila rufipectus, Phasianidae, Galliformes) is distributed in south-west China, and classified as endangered grade. To examine the evolution and genomic features of Sichuan partridge, we de novo assembled the Sichuan partridge reference genome. The final draft assembly consisted of approximately 1.09 Gb, and had a scaffold N50 of 4.57 Mb. About 1.94 million heterozygous single-nucleotide polymorphisms (SNPs) were detected, 17,519 protein-coding genes were predicted, and 9.29% of the genome was identified as repetitive elements. A total of 56 olfactory receptor (OR) genes were found in Sichuan partridge, and conserved motifs were detected. Comparisons between the Sichuan partridge genome and chicken genome revealed a conserved genome structure, and phylogenetic analysis demonstrated that Arborophila possessed a basal phylogenetic position within Phasianidae. Gene Ontology (GO) enrichment analysis of positively selected genes (PSGs) in Sichuan partridge showed over-represented GO functions related to environmental adaptation, such as energy metabolism and behavior. Pairwise sequentially Markovian coalescent analysis revealed the recent demographic trajectory for the Sichuan partridge. Our data and findings provide valuable genomic resources not only for studying the evolutionary adaptation, but also for facilitating the long-term conservation and genetic diversity for this endangered species.

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The Chloroplast Genomes Comparative Analysis of Taihangia Rupestris and Taihangia Rupestris Var. Ciliate, Two Endangered and Endemic Cliff Plants in Taihang Mountain of China

10.21203/rs.3.rs-892423/v1 ◽

2021 ◽

Author(s):

Yan Zheng ◽

Yuan Jiang ◽

Yujing Miao ◽

Zhan Feng ◽

Min Zhang ◽

...

Keyword(s):

Phylogenetic Analysis ◽

Codon Usage ◽

Sustainable Use ◽

Scientific Basis ◽

Protein Coding ◽

Protein Coding Genes ◽

Repeat Sequences ◽

Chloroplast Genomes ◽

High Degree ◽

Taihang Mountain

Abstract The Taihangia is a native endangered cliff species that grows in the Taihang Mountains in China. The cp genomes with a whole length of 155,558 bp and 155,479 bp for Taihangia rupestris and Taihangia rupestris var. rupestris. They have 131 genes in total, covering 79 protein-coding genes, 29 tRNA, and 4 rRNA. Analyses of codon usage, RNA-editing sites, repeat sequences, and comparison of cp genomes showed a high degree of conservation. Phylogenetic analysis indicated that the Taihangia are closed to the Geum. Taihangia genus was inferred to have originated at 0.2057 Mya, and Geum rupestre was inferred to have originated at 1.4431 Mya. Overall, the gene contents, gene arrangements, the types, and frequency of codon usage, repeat sequences, and SSRs are similar and highly conserved in the species of T. rupestris and T. rupestris var. ciliate. It is found that based on bioprospecting, T. rupestris and T. rupestris var. rupestris are potential medicinal resources. This study provides a scientific basis for the conservation and sustainable use of endangered medicinal resources..

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Comparative chloroplast genomics of Fritillaria (Liliaceae), inferences for phylogenetic relationships between Fritillaria and Lilium and genome evolution

10.21203/rs.2.14263/v1 ◽

2019 ◽

Author(s):

Jiao Huang ◽

Yan Yu ◽

Yan-Mei Liu ◽

Deng-Feng Xie ◽

Xing-Jin He ◽

...

Keyword(s):

Phylogenetic Relationships ◽

New World ◽

Genome Structure ◽

Single Copy ◽

Phylogenomic Analysis ◽

Structural Variations ◽

Weak Support ◽

Hypervariable Regions ◽

Chloroplast Genomes ◽

Gene Data

Abstract Background Fritillaria is a genus consisting of about 140 species that has important medicinal and horticultural values. The monophyly of Fritillaria and phylogenetic relationships with Lilium were previously not fully resolved. The study involved the most comprehensive chloroplast genomes samples to date referring to Old and New World clades of Fritillaria as identified in earlier studies.Results We reported and compared eleven newly sequenced whole-plastome sequences of Fritillaria as well as characterization of SSRs and repeat sequence. These 11 plastomes proved highly similar in overall size (151,652-152,434bp), genome structure, gene content and order; Comparing them with other species of Liliales (6 out of 10 families) indicated the same similarity but showed some structural variations due to the contraction or expansion of the IR regions out or into of adjacent single-copy regions. A/T mononucleotides, palindromic and forward repeats were the most common types. Six hypervariable regions ( rps16 - trnQ, rbcL - accD, accD - psaI, psaJ - rpl33, petD - rpoA and rpl32 - trnL ) were discovered based on 26 Fritillaria whole-plastomes to be potential molecular markers. 26 species of Fritillaria plastomes and 21 species of Lilium plastomes were combined in a phylogenomic study with 3 Cardiocrinum species as out groups. Fritillaria was monophyly with moderate support as sister to Lilium based on 64 protein-coding genes (CDS) and the interspecific relationship within subgenus Fritillaria has strong resolution. The topology recovered from the whole plastome and single-copy gene data sets was the same as for coding gene data, but weak support for monophyly of Fritillaria .Conclusions The phylogenomic analysis reconstructed a topology that had some incongruences with previous studies. The six hypervariable regions can be used as candidate DNA barcodes for global genetic diversity detection of Fritillaria . The phylogenomic framework from this study can guide extensive genomic sampling to further discern the relationships among the Old and New World clades of Fritillaria and Lilium .

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The first complete chloroplast genome sequences in Resedaceae: Genome structure and comparative analysis

Science Progress ◽

10.1177/00368504211059973 ◽

2021 ◽

Vol 104 (4) ◽

pp. 003685042110599

Author(s):

Dhafer Alzahrani ◽

Enas Albokhari ◽

Abidina Abba ◽

Samaila Yaradua

Keyword(s):

Plastid Genome ◽

High Throughput Sequencing ◽

Genome Structure ◽

Single Copy ◽

Rrna Genes ◽

Trna Genes ◽

Protein Coding ◽

Complete Chloroplast Genome ◽

Plastid Genomes ◽

Small Single Copy

Caylusea hexagyna and Ochradenus baccatus are two species in the Resedaceae family. In this study, we analysed the complete plastid genomes of these two species using high-throughput sequencing technology and compared their genomic data. The length of the plastid genome of C. hexagyna was 154,390 bp while that of O. baccatus was 153,380 bp. The lengths of the inverted repeats (IR) regions were 26,526 bp and 26,558 bp, those of the large single copy (LSC) regions were 83,870 bp and 83,023 bp; and those of the small single copy (SSC) regions were 17,468 bp and 17,241 bp in C. hexagyna and O. baccatus, respectively. Both genomes consisted of 113 genes: 79 protein-coding genes, 30 tRNA genes and 4 rRNA genes. Repeat analysis showed that the plastid genome included all types of repeats, with more frequent occurrences of palindromic sequences. Comparative studies of SSR markers showed that there were 256 markers in C. hexagyna and 255 in O. baccatus; the majority of the SSRs in these plastid genomes were mononucleotide repeats (A/T). All the clusters in the phylogenetic tree had high support. This study reported the first complete plastid genomes of the genera Caylusea and Ochradenus and the first for the Resedaceae family.

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The complete chloroplast genome of Zoysia macrostachya (Poaceae): Insights into intraspecific variations and species delimitation of the Zoysia species

Korean Journal of Plant Taxonomy ◽

10.11110/kjpt.2021.51.3.326 ◽

2021 ◽

Vol 51 (3) ◽

pp. 326-331

Author(s):

Sung-Dug OH ◽

Seong-Kon LEE ◽

Doh-Won YUN ◽

Hyeon-Jin SUN ◽

Hong-Gyu KANG ◽

...

Keyword(s):

Chloroplast Genome ◽

Species Delimitation ◽

Phylogenetic Trees ◽

Single Copy ◽

Phylogenetic Position ◽

Nucleotide Polymorphisms ◽

Protein Coding ◽

Complete Chloroplast Genome ◽

Chloroplast Genomes ◽

Intraspecific Variations

The complete chloroplast genome of Zoysia macrostachya Franch. & Sav. isolated in Korea is 135,902 bp long (GC ratio is 38.4%) and has four subregions; 81,546 bp of large single-copy (36.3%) and 12,586 bp of small single-copy (32.7%) regions are separated by 20,885 bp of inverted repeat (44.1%) regions, including 130 genes (83 protein-coding genes, eight rRNAs, and 39 tRNAs). Thirty-nine single nucleotide polymorphisms and 11 insertions and deletion (INDEL) regions were identified from two Z. macrostachya chloroplast genomes, the smallest among other Zoysia species. Phylogenetic trees show that two Z. macrostachya chloroplast genomes are clustered into a single clade. However, we found some incongruency with regard to the phylogenetic position of the Z. macrostachya clade. Our chloroplast genome provides insights into intraspecific variations and species delimitation issues pertaining to the Zoysia species.

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