scholarly journals Comparative Chloroplast Genomics of Endangered Euphorbia Species: Insights into Hotspot Divergence, Repetitive Sequence Variation, and Phylogeny

Plants ◽  
2020 ◽  
Vol 9 (2) ◽  
pp. 199 ◽  
Author(s):  
Arif Khan ◽  
Sajjad Asaf ◽  
Abdul Latif Khan ◽  
Tariq Shehzad ◽  
Ahmed Al-Rawahi ◽  
...  
Keyword(s):  
Inverted Repeat ◽  
Sequence Variation ◽  
Phylogenetic Analyses ◽  
Single Copy ◽  
Large Single Copy ◽  
Monophyletic Clade ◽  
Protein Coding ◽  
The Family ◽  
Generation Sequencing ◽  
Large Single Copy Region

Euphorbia is one of the largest genera in the Euphorbiaceae family, comprising 2000 species possessing commercial, medicinal, and ornamental importance. However, there are very little data available on their molecular phylogeny and genomics, and uncertainties still exist at a taxonomic level. Herein, we sequence the complete chloroplast (cp) genomes of two species, E. larica and E. smithii, of the genus Euphorbia through next-generation sequencing and perform a comparative analysis with nine related genomes in the family. The results revealed that the cp genomes had similar quadripartite structure, gene content, and genome organization with previously reported genomes from the same family. The size of cp genomes ranged from 162,172 to 162,358 bp with 132 and 133 genes, 8 rRNAs, 39 tRNA in E. smithii and E. larica, respectively. The numbers of protein-coding genes were 85 and 86, with each containing 19 introns. The four-junction regions were studied and results reveal that rps19 was present at JLB (large single copy region and inverted repeat b junction) in E. larica where its complete presence was located in the IRb (inverted repeat b) region in E. smithii. The sequence comparison revealed that highly divergent regions in rpoC1, rpocB, ycf3, clpP, petD, ycf1, and ndhF of the cp genomes might provide better understanding of phylogenetic inferences in the Euphorbiaceae and order Malpighiales. Phylogenetic analyses of this study illustrate sister clades of E. smithii with E. tricullii and these species form a monophyletic clade with E. larica. The current study might help us to understand the genome architecture, genetic diversity among populations, and evolutionary depiction in the genera.

scholarly journals Phylogenomic Analyses of Hepatica Species and Comparative Analyses Within Tribe Anemoneae (Ranunculaceae)

2021 ◽  
Vol 12 ◽  
Author(s):  
Kyu Tae Park ◽  
SeonJoo Park
Keyword(s):  
Phylogenetic Analyses ◽  
Single Copy ◽  
Rrna Genes ◽  
Large Single Copy ◽  
Protein Coding ◽  
Comparative Analyses ◽  
Phylogenomic Analyses ◽  
Small Genus ◽  
Small Single Copy ◽  
Large Single Copy Region

Hepatica is a small genus of Ranunculaceae with medicinal and horticultural value. We characterized nine complete chloroplast (cp) genomes of Hepatica, which ranged from 159,549 to 161,081 bp in length and had a typical quadripartite structure with a large single-copy region (LSC; 80,270–81,249 bp), a small single-copy region (SSC; 17,029–17,838 bp), and two copies of inverted repeat (IR; 31,008–31,100 bp). The cp genomes of Hepatica possess 76 protein-coding genes (PCGs), 29 tRNAs, and four rRNA genes. Comparative analyses revealed a conserved ca. 5-kb IR expansion in Hepatica and other Anemoneae; moreover, multiple inversion events occurred in Hepatica and its relatives. Analyses of selection pressure (dN/dS) showed that most of the PCGs are highly conserved except for rpl20 and rpl22 in Hepatica falconeri, Hepatica americana, and Hepatica acutiloba. Two genes (rps16 and infA) were identified as pseudogenes in Hepatica. In contrast, rpl32 gene was completely lost. The phylogenetic analyses based on 76 PCGs resolved the phylogeny of Hepatica and its related genera. Non-monophyly of Anemone s.l. indicates that Hepatica should be reclassified as an independent genus. In addition, Hepatica nobilis var. japonica is not closely related to H. nobilis.

scholarly journals The contraction in inverted repeat regions in the complete plastome sequence ofCressa creticaL

2018 ◽  
Author(s):  
Pritesh P. Bhatt ◽  
Vrinda S. Thaker
Keyword(s):  
Molecular Evolution ◽  
Inverted Repeat ◽  
High Salinity ◽  
Physical Map ◽  
Single Copy ◽  
Harsh Environment ◽  
Large Single Copy ◽  
Circular Molecule ◽  
Small Single Copy ◽  
Large Single Copy Region

AbstractPlastome studies have been the focus of research in plant molecular evolution and systematics.C. creticaL. (Convolvulaceae) is a halophyte, habitat in the ecologically challenged area with high salinity and drought. The complete physical map of plastome revealed that it is 141,419bp long, circular molecule. It contains typical quadripartite structure of large single copy region (LSC 94,808bp), small single copy region (SSC 32,527bp) separated by a pair of inverted repeat regions (IRs 7042bp). This plastome is compared with the complete plastomes of other members of Convolvulaceae showed notable distinctions. An exceptional shift in IRs to SC regions is experienced inC. creticaled to many genes shift in both SC regions and contraction in IRs. The size of IRs reduced to 2 to 4 times as compared to those of the Convolvulaceae members studied. The shifted IRs regions showed remarkable variation in nucleotides patterns. Further, the shift was from the IR boundaries and in between the IR regions led to segment IRs. It is concluded that the shift in IRs may be the strategic move for adaptation in the harsh environment.

scholarly journals Structural rearrangements in plastid genomes of Apiaceae as phylogenetic markers

2021 ◽  
Vol 38 ◽  
pp. 00107
Author(s):  
Tahir Samigullin ◽  
Carmen Vallejo-Roman ◽  
Galina Degtjareva ◽  
Elena Terentieva
Keyword(s):  
Single Copy ◽  
Sampling Scheme ◽  
Taxon Sampling ◽  
Inverted Repeats ◽  
Structural Rearrangements ◽  
Large Single Copy ◽  
Plastid Genomes ◽  
Dense Sampling ◽  
Large Single Copy Region

Apiaceae belong to angiosperm families with frequent plastome structural rearrangements, some of which are generally regarded as synapomorphic for large clades, although typically with limited taxon sampling. Our study aims to improve understanding of the structural rearrangements in plastome within the Tordylieae tribe (ApiaceaeApioideae) with a dense sampling scheme of its species. We showed that presence of psbA pseudogene in inverted repeats near the border with a large single-copy region, which is found in the Tordylieae tribe, may be a clade-specific synapomorphy.

scholarly journals Delimitation, new species and teleomorph-anamorph relationships in Codinaea, Dendrophoma, Paragaeumannomyces and Striatosphaeria (Chaetosphaeriaceae)

MycoKeys ◽  
2020 ◽  
Vol 74 ◽  
pp. 17-74
Author(s):  
Martina Réblová ◽  
Jana Nekvindová ◽  
Jacques Fournier ◽  
Andrew N. Miller
Keyword(s):  
New Species ◽  
Type Species ◽  
Morphological Traits ◽  
Phylogenetic Analyses ◽  
Axenic Culture ◽  
Monophyletic Clade ◽  
Morphological Comparison ◽  
The Family ◽  
Terrestrial Habitats ◽  
First Time

The Chaetosphaeriaceae are a diverse group of pigmented, predominantly phialidic hyphomycetes comprised of several holomorphic genera including Chaetosphaeria, the most prominent genus of the family. Although the morphology of the teleomorphs of the majority of Chaetosphaeria is rather uniform, their associated anamorphs primarily exhibit the variability and evolutionary change observed in the genus. An exception from the morphological monotony among Chaetosphaeria species is a group characterised by scolecosporous, hyaline to light pink, multiseptate, asymmetrical ascospores and a unique three-layered ascomatal wall. Paragaeumannomyces sphaerocellularis, the type species of the genus, exhibits these morphological traits and is compared with similar Chaetosphaeria with craspedodidymum- and chloridium-like synanamorphs. Morphological comparison and phylogenetic analyses of the combined ITS-28S sequences of 35 isolates and vouchers with these characteristics revealed a strongly-supported, morphologically well-delimited clade in the Chaetosphaeriaceae containing 16 species. The generic name Paragaeumannomyces is applied to this monophyletic clade; eight new combinations and five new species, i.e. P. abietinussp. nov., P. eleganssp. nov., P. granulatussp. nov., P. sabinianussp. nov. and P. smokiensissp. nov., are proposed. A key to Paragaeumannomyces is provided. Using morphology, cultivation studies and phylogenetic analyses of ITS and 28S rDNA, two additional new species from freshwater and terrestrial habitats, Codinaea paniculatasp. nov. and Striatosphaeria castaneasp. nov., are described in the family. A codinaea-like anamorph of S. castanea forms conidia with setulae at each end in axenic culture; this feature expands the known morphology of Striatosphaeria. A chaetosphaeria-like teleomorph is experimentally linked to Dendrophoma cytisporoides, a sporodochial hyphomycete and type species of Dendrophoma, for the first time.

Phylogeny of the Styracaceae Revisited Based on Whole Plastome Sequences, Including Novel Plastome Data from Parastyrax

2021 ◽  
Vol 46 (1) ◽  
pp. 162-174
Author(s):  
Ming-Hui Yan ◽  
Chun-Yang Li ◽  
Peter W. Fritsch ◽  
Jie Cai ◽  
Heng-Chang Wang
Keyword(s):  
Phylogenetic Relationships ◽  
Phylogenetic Signal ◽  
Strong Support ◽  
Single Copy ◽  
Rrna Genes ◽  
Trna Genes ◽  
Protein Coding ◽  
Protein Coding Genes ◽  
The Family ◽  
Small Single Copy

Abstract—The phylogenetic relationships among 11 out of the 12 genera of the angiosperm family Styracaceae have been largely resolved with DNA sequence data based on all protein-coding genes of the plastome. The only genus that has not been phylogenomically investigated in the family with molecular data is the monotypic genus Parastyrax, which is extremely rare in the wild and difficult to collect. To complete the sampling of the genera comprising the Styracaceae, examine the plastome composition of Parastyrax, and further explore the phylogenetic relationships of the entire family, we sequenced the whole plastome of P. lacei and incorporated it into the Styracaceae dataset for phylogenetic analysis. Similar to most others in the family, the plastome is 158189 bp in length and contains a large single-copy region of 88085 bp and a small single-copy region of 18540 bp separated by two inverted-repeat regions of 25781 bp each. A total of 113 genes was predicted, including 79 protein-coding genes, 30 tRNA genes, and four rRNA genes. Phylogenetic relationships among all 12 genera of the family were constructed with 79 protein-coding genes. Consistent with a previous study, Styrax, Huodendron, and a clade of Alniphyllum + Bruinsmia were successively sister to the remainder of the family. Parastyrax was strongly supported as sister to an internal clade comprising seven other genera of the family, whereas Halesia and Pterostyrax were both recovered as polyphyletic, as in prior studies. However, when we employed either the whole plastome or the large- or small-single copy regions as datasets, Pterostyrax was resolved as monophyletic with 100% support, consistent with expectations based on morphology and indicating that non-coding regions of the Styracaceae plastome contain informative phylogenetic signal. Conversely Halesia was still resolved as polyphyletic but with novel strong support.

Additions to Ochroconis from India

Phytotaxa ◽  
2019 ◽  
Vol 427 (3) ◽  
pp. 186-199
Author(s):  
ARCHANA SINGH ◽  
NIKHIL KUMAR SINGH ◽  
PARAS NATH SINGH ◽  
RAGHVENDRA SINGH ◽  
NAWAL KISHORE DUBEY
Keyword(s):  
New Species ◽  
Medicinal Plant ◽  
Ribosomal Dna ◽  
Leaf Surface ◽  
Novel Species ◽  
Phylogenetic Analyses ◽  
Nuclear Ribosomal Dna ◽  
Monophyletic Clade ◽  
Protein Coding

Ochroconis helicteris, a novel species of the oligotrophic genus Ochroconis (Sympoventuriaceae, Venturiales), has been described and illustrated. Morphologically, this species has characters similar to allied species in the genus Ochroconis, but differs in conidial dimensions and shape. Phylogenetic analyses using nuclear ribosomal DNA gene ITS and protein coding gene BT2 revealed it clustering as monophyletic clade which was separated from known Ochroconis species. New species was isolated from leaf surface of medicinal plant Helicteris isora L.

scholarly journals Phylogenetic placement of Paratrichaptum and reconsideration of Gloeophyllales

2020 ◽  
Vol 5 (1) ◽  
pp. 119-130 ◽  
Author(s):  
C.-C. Chen ◽  
B. Cao ◽  
T. Hattori ◽  
B.-K. Cui ◽  
C.-Y. Chen ◽  
...  
Keyword(s):  
Phylogenetic Analyses ◽  
Strong Support ◽  
Brown Rot ◽  
Phylogenetic Position ◽  
Nuclear Rdna ◽  
Protein Coding ◽  
Phylogenetic Placement ◽  
The Family ◽  
Ancestral States ◽  
Relic Species

Paratrichaptum accuratum is a large conspicuous polypore fungus growing on dead or living angiosperm trees in subtropical-boreal areas of China, Indonesia, Japan, and Taiwan. The present study places P. accuratum in the family Gloeophyllaceae that belongs to the order Gloeophyllales within Agaricomycetes (Basidiomycota), based on evidence derived from morphological and ecological characteristics, and phylogenetic analyses of sequences of nuclear rDNA regions (5.8S, nuc 18S, nuc 28S) and protein-coding genes (rpb1, rpb2, and tef1). The analyses presented in this study also give strong support for including Jaapia in Gloeophyllaceae and Gloeophyllales. Thus, the names Jaapiaceae and Jaapiales are considered here as synonyms of Gloeophyllaceae and Gloeophyllales. Since Paratrichaptum represents the earliest diverging lineage in Gloeophyllales, pileate basidiocarps and brown rot appear to be ancestral states of Gloeophyllales. Paratrichaptum accuratum may represent a relic species, according to its phylogenetic position, peculiar distribution pattern and rare occurrence.

scholarly journals The Mitochondrial Genome of Amara aulica (Coleoptera, Carabidae, Harpalinae) and Insights into the Phylogeny of Ground Beetles

Genes ◽  
2020 ◽  
Vol 11 (2) ◽  
pp. 181
Author(s):  
Zhenya Li ◽  
Xinxin Li ◽  
Nan Song ◽  
Huiji Tang ◽  
Xinming Yin
Keyword(s):  
Ribosomal Rna ◽  
Mitochondrial Protein ◽  
Carabid Beetles ◽  
Protein Coding ◽  
Sequencing Method ◽  
The Family ◽  
Outgroup Species ◽  
Complete Mitogenome ◽  
Rna Genes ◽  
Generation Sequencing

Carabidae are one of the most species-rich families of beetles, comprising more than 40,000 described species worldwide. Forty-three complete or partial mitochondrial genomes (mitogenomes) from this family have been published in GenBank to date. In this study, we sequenced a nearly complete mitogenome of Amara aulica (Carabidae), using a next-generation sequencing method. This mitogenome was 16,646 bp in length, which encoded the typical 13 mitochondrial protein-coding genes, 22 transfer RNA genes, two ribosomal RNA genes, and a putative control region. Combining with the published mitogenomes of Carabidae and five outgroup species from Trachypachidae, Gyrinidae and Dytiscidae, we performed phylogenetic estimates under maximum likelihood and Bayesian inference criteria to investigate the phylogenetic relationships of carabid beetles. The results showed that the family Carabidae was a non-monophyletic assemblage. The subfamilies Cicindelinae, Elaphrinae, Carabinae, Trechinae and Harpalinae were recovered as monophyletic groups. Moreover, the clade (Trechinae + (Brachininae + Harpalinae)) was consistently recovered in all analyses.

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