Your search keyword '"Phylogenomics"' showing total 10,416 results

1. Phylogenomic placement and revision of Iranattus Prószyński, 1992 jumping spiders (Salticidae, Plexippini, Plexippina)

Author

Marathe, Kiran, Tripathi, Rishikesh, Ambalaparambil, Sudhikumar, Maddison, Wayne P., and Pensoft Publishers

Subjects

Afrotropics, Araneae, biodiversity research, Classification, Deserts, Harmochirina, Indomalaya, phylogenomics, systematics, taxonomy, xeric scrublands

Published

2024

2. Comparative phylogenomics and phylotranscriptomics provide insights into the genetic complexity of nitrogen-fixing root-nodule symbiosis.

Author

Zhang, Yu, Fu, Yuan, Xian, Wenfei, Li, Xiuli, Feng, Yong, Bu, Fengjiao, Shi, Yan, Chen, Shiyu, van Velzen, Robin, Battenberg, Kai, Salgado, Marco, Liu, Hui, Yi, Tingshuang, Fournier, Pascale, Alloisio, Nicole, Pujic, Petar, Boubakri, Hasna, Schranz, M, Delaux, Pierre-Marc, Wong, Gane, Hocher, Valerie, Svistoonoff, Sergio, Gherbi, Hassen, Wang, Ertao, Kohlen, Wouter, Wall, Luis, Parniske, Martin, Pawlowski, Katharina, Normand, Philippe, Doyle, Jeffrey, Cheng, Shifeng, and Berry, Alison

Subjects

conserved non-coding elements, convergence, deep homology, nitrogen-fixing root-nodule symbiosis, phylogenomics, phylotranscriptomics, two competing hypotheses, Symbiosis, Phylogeny, Nitrogen, Root Nodules, Plant, Fabaceae

Abstract

Plant root-nodule symbiosis (RNS) with mutualistic nitrogen-fixing bacteria is restricted to a single clade of angiosperms, the Nitrogen-Fixing Nodulation Clade (NFNC), and is best understood in the legume family. Nodulating species share many commonalities, explained either by divergence from a common ancestor over 100 million years ago or by convergence following independent origins over that same time period. Regardless, comparative analyses of diverse nodulation syndromes can provide insights into constraints on nodulation-what must be acquired or cannot be lost for a functional symbiosis-and the latitude for variation in the symbiosis. However, much remains to be learned about nodulation, especially outside of legumes. Here, we employed a large-scale phylogenomic analysis across 88 species, complemented by 151 RNA-seq libraries, to elucidate the evolution of RNS. Our phylogenomic analyses further emphasize the uniqueness of the transcription factor NIN as a master regulator of nodulation and identify key mutations that affect its function across the NFNC. Comparative transcriptomic assessment revealed nodule-specific upregulated genes across diverse nodulating plants, while also identifying nodule-specific and nitrogen-response genes. Approximately 70% of symbiosis-related genes are highly conserved in the four representative species, whereas defense-related and host-range restriction genes tend to be lineage specific. Our study also identified over 900 000 conserved non-coding elements (CNEs), over 300 000 of which are unique to sampled NFNC species. NFNC-specific CNEs are enriched with the active H3K9ac mark and are correlated with accessible chromatin regions, thus representing a pool of candidate regulatory elements for genes involved in RNS. Collectively, our results provide novel insights into the evolution of nodulation and lay a foundation for engineering of RNS traits in agriculturally important crops.

Published

2024

3. Presence of vitamin B12 metabolism in the last common ancestor of land plants.

Author

Dorrell, Richard G., Nef, Charlotte, Altan-Ochir, Setsen, Bowler, Chris, and Smith, Alison G.

Subjects

*PLANT metabolism, *PLANT evolution, *COMMONS, *PLANT-fungus relationships, *PLANT genomes

Abstract

Vitamin B12, also known as cobalamin, is an essential organic cofactor for methionine synthase (METH), and is only synthesized by a subset of bacteria. Plants and fungi have an alternative methionine synthase (METE) that does not need B12 and are typically considered not to utilize it. Some algae facultatively utilize B12 because they encode both METE and METH, while other algae are dependent on B12 as they encode METH only. We performed phylogenomic analyses of METE, METH and 11 further proteins involved in B12 metabolism across more than 1600 plant and algal genomes and transcriptomes (e.g. from OneKp), demonstrating the presence of B12-associated metabolism deep into the streptophytes. METH and five further accessory proteins (MTRR, CblB, CblC, CblD and CblJ) were detected in the hornworts (Anthocerotophyta), and two (CblB and CblJ) were identified in liverworts (Marchantiophyta) in the bryophytes, suggesting a retention of B12-metabolism in the last common land plant ancestor. Our data further show more limited distributions for other B12-related proteins (MCM and RNR-II) and B12 dependency in several algal orders. Finally, considering the collection sites of algae that have lost B12 metabolism, we propose freshwater-to-land transitions and symbiotic associations to have been constraining factors for B12 availability in early plant evolution. This article is part of the theme issue 'The evolution of plant metabolism'. [ABSTRACT FROM AUTHOR]

Published

2024

4. Phylogenomic and synteny analysis of BAHD and SCP/SCPL gene families reveal their evolutionary histories in plant specialized metabolism.

Author

Naake, Thomas, D'Auria, John C., Fernie, Alisdair R., and Scossa, Federico

Subjects

*PROTEOLYTIC enzymes, *WHOLE genome sequencing, *GENE families, *PLANT metabolism, *SECONDARY metabolism

Abstract

Plant chemical diversity is largely owing to a number of enzymes which catalyse reactions involved in the assembly, and in the subsequent chemical modifications, of the core structures of major classes of plant specialized metabolites. One such reaction is acylation. With this in mind, to study the deep evolutionary history of BAHD and the serine-carboxypeptidase-like (SCPL) acyltransferase genes, we assembled phylogenomic synteny networks based on a large-scale inference analysis of orthologues across whole-genome sequences of 126 species spanning Stramenopiles and Archaeplastida, including Arabidopsis thaliana, tomato (Solanum lycopersicum) and maize (Zea mays). As such, this study combined the study of genomic location with changes in gene sequences. Our analyses revealed that serine-carboxypeptidase (SCP)/serine-carboxypeptidase-like (SCPL) genes had a deeper evolutionary origin than BAHD genes, which expanded massively on the transition to land and with the development of the vascular system. The two gene families additionally display quite distinct patterns of copy number variation across phylogenies as well as differences in cross-phylogenetic syntenic network components. In unlocking the above observations, our analyses demonstrate the possibilities afforded by modern phylogenomic (syntenic) networks, but also highlight their current limitations, as demonstrated by the inability of phylogenetic methods to separate authentic SCPL acyltransferases from standard SCP peptide hydrolases. This article is part of the theme issue 'The evolution of plant metabolism'. [ABSTRACT FROM AUTHOR]

Published

2024

5. New insights into the phylogeny of Neogastropoda aided by draft genome sequencing of a volutid snail.

Author

Wang, Hui, He, Xing, Chen, Chong, Gao, Kexin, Dai, Yuran, and Sun, Jin

Subjects

*NEOGASTROPODA, *GASTROPODA, *FOSSILS, *NUCLEOTIDE sequencing, *MOLLUSKS

Abstract

Neogastropoda is a large order of predominantly marine gastropod molluscs, typically predatory or parasitic on other animals. It includes over 16,000 species representing a large post‐Cretaceous radiation, but the internal phylogenetic relationships of contained taxa are far from resolved, with inconsistent results from nuclear genes, mitogenomes, and morphology. One major issue in reconstructing the molecular phylogeny is the lack of high‐quality sequences for early‐diverging families and superfamilies such as Volutidae (Volutoidea). Here, we examine the superfamily‐level phylogenetic relationships in Neogastropoda, aided by newly sequenced draft genome and mitogenome of the volutid snail Fulgoraria chinoi from the deep sea off Japan. The genome of F. chinoi is relatively large at 1.54 Gb but exhibits low genome heterozygosity; over 54% of this genome constitutes of repeat contents, and we find evidence for active insertion of transposable elements, particularly LINEs and SINEs. A total of 50,792 protein‐coding genes (PCGs) were predicted from the nuclear genome, and a circular mitogenome was also assembled and annotated. Our phylogenetic analyses using mitogenomes recovered each neogastropod superfamily as monophyletic, though also revealed inconsistent phylogenetic signals within superfamilies. Phylogenetic reconstructions using the PCGs resulted in a robust tree from different models and data matrices, recovering Volutoidea as the earliest diverging superfamily (among those for which comparable data is available) within a monophyletic Neogastropoda. Dated phylogenetic analysis revealed an early Cretaceous radiation of Neogastropoda, congruent with the fossil record. Our study provides a robust internal evolutionary framework for the speciose but genomically undersampled Neogastropoda, and expands the available genomic resources for this order. Genomic data for key missing lineages such as Mitroidea, Olivoidea, and Cancellariidae are much sought in the future for a full understanding of Neogastropoda evolution. [ABSTRACT FROM AUTHOR]

Published

2024

6. VenomCap: An exon‐capture probe set for the targeted sequencing of snake venom genes.

Author

Travers, Scott L., Hutter, Carl R., Austin, Christopher C., Donnellan, Stephen C., Buehler, Matthew D., Ellison, Christopher E., and Ruane, Sara

Subjects

*WHOLE genome sequencing, *POISONOUS snakes, *GENETIC variation, *SNAKE venom, *VENOM, *DOMINANCE (Genetics)

Abstract

Snake venoms are complex mixtures of toxic proteins that hold significant medical, pharmacological and evolutionary interest. To better understand the genetic diversity underlying snake venoms, we developed VenomCap, a novel exon‐capture probe set targeting toxin‐coding genes from a wide range of elapid snakes, with a particular focus on the ecologically diverse and medically important subfamily Hydrophiinae. We tested the capture success of VenomCap across 24 species, representing all major elapid lineages. We included snake phylogenomic probes in the VenomCap capture set, allowing us to compare capture performance between venom and phylogenomic loci and to infer elapid phylogenetic relationships. We demonstrated VenomCap's ability to recover exons from ~1500 target markers, representing a total of 24 known venom gene families, which includes the dominant gene families found in elapid venoms. We find that VenomCap's capture results are robust across all elapids sampled, and especially among hydrophiines, with respect to measures of target capture success (target loci matched, sensitivity, specificity and missing data). As a cost‐effective and efficient alternative to full genome sequencing, VenomCap can dramatically accelerate the sequencing and analysis of venom gene families. Overall, our tool offers a model for genomic studies on snake venom gene diversity and evolution that can be expanded for comprehensive comparisons across the other families of venomous snakes. [ABSTRACT FROM AUTHOR]

Published

2024

7. Ancient large‐scale gene duplications and diversification in bryophytes illuminate the plant terrestrialization.

Author

Shen, Chao, Li, Hao, Shu, Lei, Huang, Wen‐Zhuan, and Zhu, Rui‐Liang

Subjects

*CHROMOSOME duplication, *VASCULAR plants, *BRYOPHYTES, *ANGIOSPERMS, *GYMNOSPERMS

Abstract

Summary Large‐scale gene duplications (LSGDs) are crucial for evolutionary adaptation and recurrent in vascular plants. However, the role of ancient LSGDs in the terrestrialization and diversification of bryophytes, the second most species‐rich group of land plants, remains largely elusive due to limited sampling in bryophytes. Employing the most extensive nuclear gene dataset in bryophytes to date, we reconstructed a time‐calibrated phylogenetic tree from 209 species, covering virtually all key bryophyte lineages, for phylogenomic analyses of LSGDs and diversification. We newly identified two ancient LSGDs: one in the most recent common ancestor (MRCA) of extant bryophytes and another in the MRCA of the majority of Jungermanniales s. lato. Duplicated genes from these two LSGDs show significant enrichment in photosynthesis‐related processes and structures. Rhizoid‐responsive ROOTHAIR DEFECTIVE SIX‐LIKE (RSL) genes from ancient LSGDs are present in rhizoidless bryophytes, challenging assumptions about rhizoid absence mechanisms. We highlighted four major diversification rate upshifts, two of which slightly postdated LSGDs, potentially linked to the flourishing of gymnosperms and angiosperms and explaining over 80% of bryophyte diversity. Our findings, supported by extensive bryophyte sampling, highlight the significance of LSGDs in the early terrestrialization and diversification of bryophytes, offering new insights into land plant evolution. [ABSTRACT FROM AUTHOR]

Published

2024

8. Phylogeny, biogeography and morphological evolution of the treehopper‐like leafhoppers (Hemiptera: Cicadellidae) Megophthalminae and Ulopinae.

Author

Cao, Yanghui, Dietrich, Christopher H., Dmitriev, Dmitry A., Kits, Joel H., Xue, Qingquan, and Zhang, Yalin

Subjects

*FOREST litter, *LEAFHOPPERS, *BIOGEOGRAPHY, *ECOLOGICAL niche, *HEMIPTERA

Abstract

Recent phylogenetic analyses of anchored‐hybrid, transcriptomic and morphological data have consistently recovered a clade comprising the three previously recognized families of treehoppers (Hemiptera), Aetalionidae, Melizoderidae and Membracidae, as well as two groups traditionally included in the leafhopper family Cicadellidae as subfamilies Megophthalminae and Ulopinae. To reconstruct the phylogeny of these two groups of treehopper‐like leafhoppers, maximum likelihood and multi‐species coalescent analyses were performed on a molecular DNA dataset consisting of ~700 anchored hybrid loci representing 84 terminal taxa. Analyses based on different dataset subsets and approaches yielded largely congruent topologies, although the relationships among Megophthalminae, Ulopinae and treehoppers are still unstable. The monophyly of both subfamilies is strongly supported, but several tribes, including Agalliini, Cephalelini, Megophthalmini and Ulopini, are recovered as non‐monophyletic. The origin of Megophthalminae and Ulopinae was estimated as early Cretaceous (~140 million years ago), and the divergence within each subfamily began in the mid‐Cretaceous. Continental‐scale biogeographic structure is evident in these two groups, with genera occurring on the same continent tending to group together regardless of tribal placement, suggesting that extensive morphological convergence occurred among faunas inhabiting different regions. Ancestral microhabitat reconstruction suggested that megophthalmine and ulopine leafhoppers originally lived on trees or shrubs and later several groups evolved independently to inhabit leaf litter and soil. Convergent modifications of the ocelli, forewings and hindwings accompanied changes in microhabitat preference. [ABSTRACT FROM AUTHOR]

Published

2024

9. Comparative genomics provides insights into the evolutionary history of the phylum Ciliophora (Eukaryota, Alveolata) and uncovers the adaptive evolution of anaerobic ciliate classes.

Author

Zhang, Ying, Liang, Fasheng, Fu, Yu, Chi, Yong, Song, Wen, Warren, Alan, and Li, Lifang

Subjects

*BIOLOGICAL evolution, *COMPARATIVE genomics, *APICOMPLEXA, *CILIATA, *EUKARYOTES, *SPECIES

Abstract

Ciliophora are one of the most diverse phyla of unicellular eukaryotes. Members of this group are widely distributed and have been found in several environments including those that are anaerobic. However, the paucity of sufficient omics data for the major classes of the phylum Ciliophora, especially the anaerobic ciliate lineages, has been a serious impediment to research thus far. In this study, omics data were expanded to include representatives of 16 ciliate classes (excluding Cariacotrichea and Copemetopea) using single‐cell sequencing techniques. Using omics data of 57 ciliates and two apicomplexans, we conducted a comparative genomics study. Phylogenomic analysis based on 156 orthologous genes showed that: there are two superclades within the subphylum Intramacronucleata, i.e., Colpodea + Oligohymenophorea + Nassophorea + Plagiopylea + Prostomatea + Phyllopharyngea (CONThreeP), and Spirotrichea + Armophorea + Litostomatea + Odontostomatea + Muranotrichea + Parablepharismea (SALOMP); with the exception of Armophorea, all ciliate classes are monophyletic; neither Metopus nor Plagiopyla is monophyletic; Paraspathidium has a close affiliation with prostomateans. The results of the divergence time estimations indicated that: the radiation of Ciliophora occurred ca. 1067 million years ago (Mya); the SALOMP and CONThreeP lineages diverged from the intramacronucleatean common ancestor ca. 892 Mya and 851 Mya, respectively; the split between Muranotrichea and Parablepharismea occurred ca. 712 Mya; Odontostomatea are the youngest class, with a crown age estimated at ca. 19 Mya. In addition, we profiled stop codon usage and programmed ribosomal frameshifting (PRF) events. Our analyses revealed that: most of the species investigated use either TAA or TGA as the biased stop codon; stop codon usage in Paraspathidium sp. resembles that of Prostomatea; almost all ciliates included in the analyses have prevalent +1 and −1 PRF events. Finally, through GO enrichment analysis for group‐shared orthogroups of five anaerobic ciliate classes, we successfully identified the biological process and molecular function GO terms that were related to the adaptation of this particular group of ciliates to anaerobic environments. Together, these findings provide new insights into the evolutionary history of the Ciliophora and deepen our understanding of the adaptation of anaerobic ciliate groups to anaerobic environments from an evolutionary perspective. [ABSTRACT FROM AUTHOR]

Published

2024

10. Phylogenomic Analysis and Functional Characterization of the APETALA2/Ethylene-Responsive Factor Transcription Factor Across Solanaceae.

Author

Yang, Fan, Han, Songxue, Zhang, Yangxin, Chen, Xiangxiang, Gai, Wenxian, and Zhao, Tao

Abstract

The AP2/ERF family constitutes one of the largest groups of transcription factors in the Solanaceae. AP2/ERF contributes to various plant biological processes, including growth, development, and responses to various stresses. The origins and functional diversification of AP2/ERF within the Solanaceae family remain poorly understood, primarily because of the complex interactions between whole-genome duplications (WGDs) and tandem duplications. In this study, a total of 1282 AP2/ERF proteins are identified from 7 Solanaceae genomes. The amplification of AP2/ERF genes was driven not only by WGDs but also by the presence of clusters of tandem duplicated genes. The conservation of synteny across different chromosomes provides compelling evidence for the impact of the WGD event on the distribution pattern of AP2/ERF genes. Distinct expression patterns suggest that the multiple copies of AP2/ERF genes evolved in different functional directions, catalyzing the diversification of roles among the duplicated genes, which was of great significance for the adaptability of Solanaceae. Gene silencing and overexpression assays suggest that ERF-1 members' role in regulating the timing of floral initiation in C. annuum. Our findings provide insights into the genomic origins, duplication events, and function divergence of the Solanaceae AP2/ERF. [ABSTRACT FROM AUTHOR]

Published

2024

11. Emergence and evolution of mosaic penA-60 and penA-237 alleles in a Neisseria gonorrhoeae core genogroup that was historically susceptible to extended spectrum cephalosporins.

Author

Thomas IV, Jesse C., Cartee, John C., Hebrank, Katherine, St. Cyr, Sancta B., Kersh, Ellen N., and Joseph, Sandeep J.

Subjects

HOMOLOGOUS recombination, NEISSERIA gonorrhoeae, MULTIDRUG resistance, MOLECULAR cloning, DRUG resistance in microorganisms, CEFTRIAXONE

Abstract

Introduction: Neisseria gonorrhoeae (Ng) has successively developed resistance to all previously recommended antimicrobial therapies, with ceftriaxone being the last option for monotherapy of gonorrhea. Global emergence and international spread of the FC428 clone derived mosaic penA-60 allele, associated with highlevel ceftriaxone minimum inhibitory concentrations (MICs) in non FC428 clone Ng lineages, has become an increasing concern. The penA-60 allele carrying Ng was first identified in the U.S. in Las Vegas, Nevada (2019; GCWGS-102723), with a multi-locus sequence type (MLST)-1901 strain, in a non FC428 clone Ng lineage, which is associated with a historically ceftriaxone susceptible core genogroup. Later in 2022, an allele genetically similar to penA-60, mosaic penA-237, was identified in the UK (H22-722) and France (F92) with high-level ceftriaxone MICs and both belonged to MLST-1901. Methods: In this study, we assessed phylogenomic relatedness and antimicrobial resistance (AMR) determinant profiles of these three isolates with high-level ceftriaxone MICs among a global collection of 2,104 genomes belonging to the MLST-1901 core genome cluster group 31, which includes strains separated by a locus threshold of 200 or fewer differences (Ng_cgc_200). Recombination events in and around the penA coding region were catalogued and potential sources of inter species recombinant DNA were also inferred. Results: The global population structure of MLST-1901 core genogroup falls into 4 major lineages. Isolates GCWGS-10723, F92, and H22-722 clustered within Lineage 1, which was dominated by non-mosaic penA-5 alleles. These three isolates formed a clade within Lineage 1 that consisted of isolates from North America and southeast Asia. Neisseria subflava and Neisseria sicca were identified as likely progenitors of two independent recombination events that may have led to the generation of mosaic penA-60 and penA-237, within a possible non-mosaic penA-5 background. Discussions: Our study suggests that there are multiple evolutionary pathways that could generate concerning mosaic penA alleles via homologous recombination of historically susceptible Ng lineages with Neisseria commensals. Enhanced surveillance of gonococcal strains and Neisseria commensals is crucial for understanding of the evolution of AMR, particularly in less-studied regions (e.g., Asia), where high-level ceftriaxone MICs and multi-drug resistance are more prevalent. [ABSTRACT FROM AUTHOR]

Published

2024

12. Insights into the genomic traits of Yersinia frederiksenii, Yersinia intermedia and Yersinia kristensenii isolated from diverse sources in Brazil.

Author

Vilela, Felipe Pinheiro, Imori, Priscilla Fernanda Martins, Allard, Marc William, and Falcão, Juliana Pfrimer

Abstract

Yersinia is an important genus comprising foodborne, zoonotic and pathogenic bacteria. On the other hand, species of the so-called group Yersinia enterocolitica-like are understudied and mostly characterized as non-pathogenic, despite of some reports of human infections. The present study aimed to provide genomic insights of Yersinia frederiksenii (YF), Yersinia intermedia (YI) and Yersinia kristensenii (YK) isolated worldwide. A total of 22 YF, 20 YI and 14 YK genomes were searched for antimicrobial resistance genes, plasmids, prophages, and virulence factors. Their phylogenomic relatedness was analyzed by Gegenees and core-genome multi-locus sequence typing. Beta-lactam resistance gene blaTEM-116 and five plasmids replicons (pYE854, ColRNAI, ColE10, Col(pHAD28) and IncN3) were detected in less than five genomes. A total of 59 prophages, 106 virulence markers of the Yersinia genus, associated to adherence, antiphagocytosis, exoenzymes, invasion, iron uptake, proteases, secretion systems and the O-antigen, and virulence factors associated to other 20 bacterial genera were detected. Phylogenomic analysis revealed high inter-species distinction and four highly diverse YF clusters. In conclusion, the results obtained through the analyses of YF, YI and YK genomes suggest the virulence potential of these strains due to the broad diversity and high frequency of prophages and virulence factors found. Phylogenetic analyses were able to correctly distinguish these closely related species and show the presence of different genetic subgroups. These data contributed for a better understanding of YF, YI and YK virulence-associated features and global genetic diversity, and reinforced the need for better characterization of these Y. enterocolitica-like species considered non-pathogenic. [ABSTRACT FROM AUTHOR]

Published

2024

13. Discovery of a novel Wolbachia in Heterodera expands nematode host distribution.

Author

Kaur, Taranjot and Brown, Amanda M. V.

Subjects

HORIZONTAL gene transfer, INSECT nematodes, COMPARATIVE genomics, GENOMICS, HETERODERA, WOLBACHIA

Abstract

Bioinformatics sequence data mining can reveal hidden microbial symbionts that might normally be filtered and removed as contaminants. Data mining can be helpful to detect Wolbachia, a widespread bacterial endosymbiont in insects and filarial nematodes whose distribution in plant-parasitic nematodes (PPNs) remains underexplored. To date, Wolbachia has only been reported a few PPNs, yet nematode-infecting Wolbachia may have been widespread in the evolutionary history of the phylum based on evidence of horizontal gene transfers, suggesting there may be undiscovered Wolbachia infections in PPNs. The goal of this study was to more broadly sample PPN Wolbachia strains in tylenchid nematodes to enable further comparative genomic analyses that may reveal Wolbachia’s role and identify targets for biocontrol. Published whole-genome shotgun assemblies and their raw sequence data from 33 Meloidogyne spp. assemblies, seven Globodera spp. assemblies, and seven Heterodera spp. assemblies were analyzed to look for Wolbachia. No Wolbachia was found in Meloidogyne spp. and Globodera spp., but among seven genome assemblies for Heterodera spp., an H. schachtii assembly from the Netherlands was found to have a large Wolbachia-like sequence that, when re-assembled from reads, formed a complete, circular genome. Detailed analyses comparing read coverage, GC content, pseudogenes, and phylogenomic patterns clearly demonstrated that the H. schachtii Wolbachia represented a novel strain (hereafter, denoted wHet). Phylogenomic tree construction with PhyloBayes showed wHet was most closely related to another PPN Wolbachia, wTex, while 16S rRNA gene analysis showed it clustered with other Heterodera Wolbachia assembled from sequence databases. Pseudogenes in wHet suggested relatedness to the PPN clade, as did the lack of significantly enriched GO terms compared to PPN Wolbachia strains. It remains unclear whether the lack of Wolbachia in other published H. schachtii isolates represents the true absence of the endosymbiont from some hosts. [ABSTRACT FROM AUTHOR]

Published

2024

14. Phylogenomic analyses of the Listeriaceae family support species reclassification and proposal of a new family and new genera.

Author

Bouznada, Khaoula, Belaouni, Hadj Ahmed, Saker, Rafika, Chaabane Chaouch, Fawzia, and Meklat, Atika

Abstract

The taxonomy of the Listeriaceae family has undergone substantial revisions, expanding the Listeria genus from 6 to 29 species since 2009. However, these classifications have relied on 16S rRNA gene sequences and conventional polyphasic taxonomy, with limited use of genomic approaches. This study aimed to employ genomic tools, including phylogenomics, Overall Genomic Relatedness Indices (OGRIs), and core-genome phylogenomic analyses, to reevaluate the taxonomy of the Listeriaceae family. The analyses involved the construction of phylogenetic and phylogenomic trees based on 16S rRNA gene sequences and core genomes from 34 type strain genomes belonging to Listeriaceae family. OGRIs, which encompass Average Amino acid Identity (AAI), core-proteome AAI (cAAI), and Percentage of Conserved Proteins (POCP), were calculated, and specific threshold values of 70%, 87%, and 72–73% were established, respectively, to delimitate genera in the Listeriaceae family. These newly proposed OGRI thresholds unveiled distinct evolutionary lineages. The outcomes of this taxonomic re-evaluation were: (i): the division of the Listeria genus into an emended Listeria genus regrouping only Listeria senso stricto species; (ii): the remaining Listeria senso lato species were transferred into three newly proposed genera: Murraya gen. nov., Mesolisteria gen. nov., and Paenilisteria gen. nov. within Listeriaceae; (iii): Brochothrix was transferred to the newly proposed family Brochothricaceae fam. nov. within the Caryophanales order; (iiii): Listeria ivanovii subsp. londonensis was elevated to the species level as Listeria londonensis sp. nov.; and (iiiii): Murraya murrayi comb. nov. was reclassified as a later heterotypic synonym of Murraya grayi comb. nov. This taxonomic framework enables more precise identification of pathogenic Listeriaceae species, with significant implications for important areas such as food safety, clinical diagnostics, epidemiology, and public health. [ABSTRACT FROM AUTHOR]

Published

2024

15. From the shallows to the depths: a new probe set to target ultraconserved elements for Decapoda and other Malacostraca.

Author

Geburzi, Jonas C., Rodríguez-Flores, Paula C., Derkarabetian, Shahan, and Giribet, Gonzalo

Subjects

POPULATION differentiation, POPULATION genetics, MANGROVE crabs, PHYLOGENY, MUSEUM techniques

Abstract

Introduction: Since its introduction about a decade ago, target enrichment sequencing of ultraconserved elements (UCEs) has proven to be an invaluable tool for studies across evolutionary scales, and thus employed from population genetics, to historical biogeography as well as deep-time phylogenetics. Here, we present the first probe set targeting UCEs in crustaceans, specifically designed for decapods and tested beyond decapods in other malacostracan lineages. Methods: Probes were designed using published genomes of nine decapod and one peracarid species, as well as raw Nanopore long reads of one additional brachyuran species. The final probe set consists of about 20,000 probes, targeting 1,384 unique UCE loci. We compiled a dataset across Malacostraca, as well as datasets of a deep-sea squat lobster genus, and an intertidal mangrove crab species, to test the probe set at different phylogenetic levels (i.e., class, order, genus, within species). Results: Final mean UCE recovery from fresh samples across Malacostraca was 568 loci, with up to 847 and 658 loci recovered from decapod and non-decapod species, respectively. Final mean recovery from fresh samples in the genus- and within species-level datasets was 849 and 787 loci, respectively. Up to several hundreds of UCEs were recovered from historicalmuseum specimens (10 to > 150 years old), that were included in all datasets. UCE-based phylogenies largely reflected the known relationships of the included taxa, and we were able to infer population differentiation based on >600 SNPs extracted from the species-level dataset. Discussion: Our results showcase the versatility of this UCE probe set, yielding informative data from phylogenetic as well as population-genetic datasets. They demonstrate once more that UCEs are a promising technique for leveraging museum specimens for genomic studies, and overall highlight the probe set's potential for crustacean evolutionary studies. [ABSTRACT FROM AUTHOR]

Published

2024

16. The origin and morphological character evolution of the paleotropical woody bamboos.

Author

Liu, Jing‐Xia, Guo, Cen, Ma, Peng‐Fei, Zhou, Meng‐Yuan, Luo, Ya‐Huang, Zhu, Guang‐Fu, Xu, Zu‐Chang, Milne, Richard I, Vorontsova, Maria S., and Li, De‐Zhu

Subjects

*BIOLOGICAL evolution, *SINGLE nucleotide polymorphisms, *CARYOPSES, *DNA sequencing, *GRASSES

Abstract

The woody bamboos (Bambusoideae) exhibit distinctive biological traits within Poaceae, such as highly lignified culms, rapid shoot growth, monocarpic mass flowering and nutlike or fleshy caryopses. Much of the remarkable morphological diversity across the subfamily exists within a single hexaploid clade, the paleotropical woody bamboos (PWB), making it ideal to investigate the factors underlying morphological evolution in woody bamboos. However, the origin and biogeographical history of PWB remain elusive, as does the effect of environmental factors on the evolution of their morphological characters. We generated a robust and time‐calibrated phylogeny of PWB using single nucleotide polymorphisms retrieved from optimized double digest restriction site associated DNA sequencing, and explored the evolutionary trends of habit, inflorescence, and caryopsis type in relation to environmental factors including climate, soil, and topography. We inferred that the PWB started to diversify across the Oligocene–Miocene boundary and formed four major clades, that is, Melocanninae, Racemobambosinae s.l. (comprising Dinochloinae, Greslanlinae, Racemobambosinae s.str. and Temburongiinae), Hickeliinae and Bambusinae s.l. (comprising Bambusinae s.str. plus Holttumochloinae). The ancestor of PWB was reconstructed as having erect habit, indeterminate inflorescence and basic caryopsis. The characters including climbing/scrambling habit, determinate inflorescence, and nucoid/bacoid caryopsis have since undergone multiple changes and reversals during the diversification of PWB. The evolution of all three traits was correlated with, and hence likely influenced by, aspects of climate, topography, and soil, with climate factors most strongly correlated with morphological traits, and soil factors least so. However, topography had more influence than climate or soil on the evolution of erect habit, whereas both factors had greater effect on the evolution of bacoid caryopsis than did soil. Our results provide novel insights into morphological diversity and adaptive evolution in bamboos for future ecological and evolutionary research. [ABSTRACT FROM AUTHOR]

Published

2024

17. SEGUL: Ultrafast, memory‐efficient and mobile‐friendly software for manipulating and summarizing phylogenomic datasets.

Author

Handika, Heru and Esselstyn, Jacob A.

Subjects

*MOBILE operating systems, *GRAPHICAL user interfaces, *PROGRAMMING languages

Abstract

Phylogenetic studies now routinely require manipulating and summarizing thousands of data files. For most of these tasks, currently available software requires considerable computing resources and substantial knowledge of command‐line applications. We develop an ultrafast and memory‐efficient software, SEGUL, that performs common phylogenomic dataset manipulations and calculates statistics summarizing essential data features. Our software is available as standalone command‐line interface (CLI) and graphical user interface (GUI) applications, and as a library for Rust, R and Python, with possible support of other languages. The CLI and library versions run native on Windows, Linux and macOS, including Apple ARM Macs. The GUI version extends support to include mobile iOS, iPadOS and Android operating systems. SEGUL leverages the high performance of the Rust programming language to offer fast execution times and low memory footprints regardless of dataset size and platform choice. The inclusion of a GUI minimizes bioinformatics barriers to phylogenomics while SEGUL's efficiency reduces economic barriers by allowing analysis on inexpensive hardware. Our support for mobile operating systems further enables teaching phylogenomics where access to computing power is limited. see also the Perspective by Kin Onn Chan [ABSTRACT FROM AUTHOR]

Published

2024

18. High rate of gene family evolution in proximity to the origin of ectomycorrhizal symbiosis in Inocybaceae.

Author

Khan, Faheema Kalsoom, Sánchez‐García, Marisol, Johannesson, Hanna, and Ryberg, Martin

Subjects

*FUNGAL genes, *GENE families, *COMPARATIVE genomics, *SAPROPHYTES, *GENOMES, *PEPTIDASE

Abstract

Summary: The genomes of ectomycorrhizal (ECM) fungi have a reduced number of genes encoding Carbohydrate‐Active EnZymes (CAZymes), expansions in transposable elements (TEs) and small secreted proteins (SSPs) compared with saprotrophs. Fewer genes for specific peptidases and lipases in ECM fungi are also reported. It is unclear whether these changes occur at the shift to the ECM habit or are more gradual throughout the evolution of ECM lineages.We generated a genomic dataset of 20 species in the ECM lineage Inocybaceae and compared them with six saprotrophic species.Inocybaceae genomes have fewer CAZymes, peptidases, lipases, secondary metabolite clusters and SSPs and higher TE content than their saprotrophic relatives. There was an increase in the rate of gene family evolution along the branch with the transition to the ECM lifestyle. This branch had very high rate of evolution in CAZymes and had the largest number of contractions. Other significant changes along this branch included expansions in transporters, transposons‐related genes and communication genes such as fungal kinases.There is a high concentration of changes in proximity to the transition to the ECM lifestyle, which correspond to the identified key changes for the gain of this lifestyle. [ABSTRACT FROM AUTHOR]

Published

2024

19. Species delimitation in Xanthium sect. Acanthoxanthium (Heliantheae, Asteraceae) and the neglected species Xanthium argenteum.

Author

Manzo, Eleonora, Nillies, Sebastian, Gutiérrez, Diego G., Panero, José L., Bräuchler, Christian, and Tomasello, Salvatore

Subjects

BIOLOGICAL classification, LEAF morphology, LEAF anatomy, FOLIAR diagnosis, GEOMETRIC analysis, BOTANICAL specimens

Abstract

Xanthium is a genus of annual herbaceous plants that stands out within Asteraceae for being wind‐pollinated, diclinous monoecious, and bearing solitary pistillate flowers in peculiar spiny structures (burs). Xanthium sect. Acanthoxanthium is native to South America and characterized by the presence of trifurcate spines at the base of the leaves. Past taxonomic treatments of the section have been contradictory, some recognising up to six species, others reducing all to a single polymorphic species. Altogether, 42 samples of X. sect. Acanthoxanthium were analysed, the vast majority taken from herbarium specimens between 20 and 160 years old. We sampled multiple specimens of X. spinosum from throughout its broad range as well as those taxa with narrower distributions, covering the whole range of morphological variation in the section. When possible, we included types and original material. We used Hyb‐Seq techniques to obtain information from about 1000 single‐copy nuclear genes and complete plastomes. Phylogenomic data were submitted to coalescent‐based species delimitation approaches (SPEEDEMON). Additionally, we performed geometric morphometric analysis of leaf outlines. The results strongly support the identification of four lineages in the section favouring the acceptance of four of the hitherto described species, i.e., X. ambrosioides, X. argenteum, X. catharticum, and X. spinosum. These results were to some extent corroborated by morphometric analyses. While X. ambrosioides was well distinct from X. spinosum based on leaf morphology, such difference was not observed between X. spinosum and X. catharticum. However, X. catharticum differs from X. spinosum in its ecological requirements, being a species rather adapted to high‐mountain environments of the Neotropics. Intriguingly, X. argenteum – a taxon described from a single herbarium collection – was also inferred as a species. [ABSTRACT FROM AUTHOR]

Published

2024

20. Chronospaces: An R package for the statistical exploration of divergence times promotes the assessment of methodological sensitivity.

Author

Mongiardino Koch, Nicolás and Milla Carmona, Pablo

Subjects

SENSITIVITY analysis, FOSSILS, HINGES, CALIBRATION, TREES

Abstract

Much of our understanding of the history of life hinges upon time calibration, the process of assigning absolute times to cladogenetic events. Bayesian approaches to time‐scaling phylogenetic trees have dramatically grown in complexity, and depend today upon numerous methodological choices. Arriving at objective justifications for all of these is difficult and time‐consuming. Thus, divergence times are routinely inferred under only one or a handful of parametric conditions, often times chosen arbitrarily. Progress towards building robust biological timescales necessitates the development of better methods to visualize and quantify the sensitivity of results to these decisions.Here, we present an R package that assists in this endeavour through the use of chronospaces, that is, graphical representations summarizing variation in the node ages contained in time‐calibrated trees. We further test this approach by estimating divergence times for three empirical datasets—spanning widely differing evolutionary timeframes—using the software PhyloBayes.Our results reveal large differences in the impact of many common methodological decisions, with the choice of clock (uncorrelated vs autocorrelated) and loci having strong effects on inferred ages. Other decisions have comparatively minor consequences, including the use of the computationally intensive site‐heterogeneous model CAT‐GTR, whose effect might only be discernible for exceedingly old divergences (e.g. the deepest eukaryote nodes).The package chronospace implements a range of graphical and analytical tools that assist in the exploration of sensitivity and the prioritization of computational resources in the inference of divergence times. [ABSTRACT FROM AUTHOR]

Published

2024

21. Machine learning approaches to assess microendemicity and conservation risk in cave-dwelling arachnofauna.

Author

Steiner, Hugh G., Aharon, Shlomi, Ballesteros, Jesús, Gainett, Guilherme, Gavish-Regev, Efrat, and Sharma, Prashant P.

Subjects

ECOLOGICAL surveys, MACHINE learning, ENDEMIC species, BIOTIC communities, CAVES

Abstract

The biota of cave habitats faces heightened conservation risks, due to geographic isolation and high levels of endemism. Molecular datasets, in tandem with ecological surveys, have the potential to precisely delimit the nature of cave endemism and identify conservation priorities for microendemic species. Here, we sequenced ultraconserved elements of Tegenaria within, and at the entrances of, 25 cave sites to test phylogenetic relationships, combined with an unsupervised machine learning approach for detecting species. Our analyses identified clear and well-supported genetic breaks in the dataset that accorded closely with morphologically diagnosable units. Through these analyses, we also detected some previously unidentified, potential cryptic morphospecies. We then performed conservation assessments for seven troglobitic Israeli species of this genus and determined five of these to be critically endangered. [ABSTRACT FROM AUTHOR]

Published

2024

22. Expanded gene and taxon sampling of diplomonads shows multiple switches to parasitic and free-living lifestyle.

Author

Wiśniewska, Monika M., Salomaki, Eric D., Silberman, Jeffrey D., Terpis, Kristina X., Mazancová, Eva, Táborský, Petr, Jinatham, Vasana, Gentekaki, Eleni, Čepička, Ivan, and Kolisko, Martin

Subjects

*MARINE sediments, *TRANSCRIPTOMES, *PHYLOGENY, *GENOMES, *METABOLITES, *GIARDIA lamblia

Abstract

Background : Diplomonads are anaerobic flagellates classified within Metamonada. They contain both host-associated commensals and parasites that reside in the intestinal tracts of animals, including humans (e.g., Giardia intestinalis), as well as free-living representatives that inhabit freshwater and marine anoxic sediments (e.g., Hexamita inflata). The evolutionary trajectories within this group are particularly unusual as the free-living taxa appear to be nested within a clade of host-associated species, suggesting a reversal from host-dependence to a secondarily free-living lifestyle. This is thought to be an exceedingly rare event as parasites often lose genes for metabolic pathways that are essential to a free-living life strategy, as they become increasingly reliant on their host for nutrients and metabolites. To revert to a free-living lifestyle would require the reconstruction of numerous metabolic pathways. All previous studies of diplomonad evolution suffered from either low taxon sampling, low gene sampling, or both, especially among free-living diplomonads, which has weakened the phylogenetic resolution and hindered evolutionary insights into this fascinating transition. Results: We sequenced transcriptomes from 1 host-associated and 13 free-living diplomonad isolates; expanding the genome scale data sampling for diplomonads by roughly threefold. Phylogenomic analyses clearly show that free-living diplomonads form several branches nested within endobiotic species. Moreover, the phylogenetic distribution of genes related to an endobiotic lifestyle suggest their acquisition at the root of diplomonads, while traces of these genes have been identified in free-living diplomonads as well. Based on these results, we propose an evolutionary scenario of ancestral and derived lifestyle transitions across diplomonads. Conclusions: Free-living taxa form several clades nested within endobiotic taxa in our phylogenomic analyses, implying multiple transitions between free-living and endobiotic lifestyles. The evolutionary history of numerous virulence factors corroborates the inference of an endobiotic ancestry of diplomonads, suggesting that there have been several reversals to a free-living lifestyle. Regaining host independence may have been facilitated by a subset of laterally transferred genes. We conclude that the extant diversity of diplomonads has evolved from a non-specialized endobiont, with some taxa becoming highly specialized parasites, others becoming free-living, and some becoming capable of both free-living and endobiotic lifestyles. Highlights: • Expanding the taxon sampling of phylogenomic analyses for diplomonads by sequencing transcriptomes of 13 free-living isolates and one endobiotic isolate. • Constructing a well-resolved evolutionary framework for exploring lifestyle adaptation in diplomonads using a phylogenomic approach. • Identifying genetic signatures of parasitic ancestry (variant-specific surface proteins, virulence factors) in free-living diplomonads. [ABSTRACT FROM AUTHOR]

Published

2024

23. Transcriptomics of Diphyllatea (CRuMs) from South Pacific crater lakes confirm new cryptic clades.

Author

Galindo, Luis Javier, Mathur, Varsha, Frost, Hadleigh, Torruella, Guifré, Richards, Thomas A., and Irwin, Nicholas A. T.

Subjects

*CRATER lakes, *LAKES, *TRANSCRIPTOMES, *BIOGEOGRAPHY, *RIBOSOMAL RNA

Abstract

The Diphyllatea (CRuMs) are heterotrophic protists currently divided into three distinct clades (Diphy I–III). Diphy I are biflagellates in the genus Diphylleia, whereas Diphy II and III represent cryptic clades comprising Collodictyon‐type quadriflagellates that were recently distinguished based on rRNA gene phylogenies. Here, we isolated Diphyllatea from freshwater crater lakes on two South Pacific islands and generated high‐quality transcriptomes from species representing each clade, including the first transcriptomic data from Diphy III. Phylogenomic analyses support the separation of Diphy II and III, while transcriptome completeness highlights the utility of these data for future studies. Lastly, we discuss the biogeography and ecology of Diphyllatea on these remote islands. [ABSTRACT FROM AUTHOR]

Published

2024

24. Comparative plastome analyses and evolutionary relationships of 25 East Asian species within the medicinal plant genus Scrophularia (Scrophulariaceae).

Author

Xia Wang, Lei Guo, Lulu Ding, Leopoldo Medina, Ruihong Wang, and Pan Li

Subjects

GERMPLASM, MEDICINAL plants, INDUSTRIALIZATION, SCROPHULARIACEAE, CHLOROPLAST DNA

Abstract

Background: Scrophularia L., a genus of the Scrophulariaceae, is a group of important medicinal plants used for eliminating heat and detoxifying. East Asia has an abundance of potentially medicinal Scrophularia species, and it serves as a secondary diversity center of the genus. However, the genomic resources available for germplasm identification and pharmaceutical exploration of East Asian Scrophularia are insufficient, hindering its commercial and industrial development. Additionally, the interspecific relationships of most East Asian Scrophularia species remain unclear. Methods: In this study, we sequenced the leaves of 25 East Asian species of the genus Scrophularia, assembled and annotated the complete chloroplast genomes, and subsequently performed comparative and phylogenetic analyses on these genomes. Results and discussion: The conserved plastome length of these 25 species ranged from 151,582 bp to 153,239 bp, containing a total of 132 coding genes, including 18 duplicated genes and 114 unique genes. Through genome alignment of these 25 species, 38-53 repeated sequences and 7 shared SSRs were identified, along with regions with high nucleotide polymorphism (Pi), which could potentially serve as molecular markers for species identification. The genome structure, gene content, and arrangement showed conservation, while variations were observed in the IR boundary regions and IGS. Phylogenetic inferences based on whole plastomes or on coding sequences (CDS) only yielded congruent results. We categorized the 25 East Asian Scrophularia species into six distinct clades and further explored their interspecies relationships using morphological characteristics, such as flower color, the relative position of stamens and corolla, and plant height. This could lay a genetic basis for future resource development of Scrophularia in East Asia. [ABSTRACT FROM AUTHOR]

Published

2024

25. Recent speciation and adaptation to aridity in the ecologically diverse Pilbara region of Australia enabled the native tobaccos (Nicotiana; Solanaceae) to colonize all Australian deserts.

Author

Cauz‐Santos, Luiz A., Samuel, Rosabelle, Metschina, Dominik, Christenhusz, Maarten J. M., Dodsworth, Steven, Dixon, Kingsley W., Conran, John G., Paun, Ovidiu, and Chase, Mark W.

Subjects

*ARID regions, *BOTANY, *BIOGEOGRAPHY, *SOLANACEAE, *ECOLOGICAL niche

Abstract

Over the last 6 million years, the arid Australian Eremaean Zone (EZ) has remained as dry as it is today. A widely accepted hypothesis suggests that the flora and fauna of arid regions were more broadly distributed before aridification began. In Australia, this process started around 20 million years ago (Ma), leading to gradual speciation as the climate became increasingly arid. Here, we use genomic data to investigate the biogeography and timing of divergence of native allotetraploid tobaccos, Nicotiana section Suaveolentes (Solanaceae). The original allotetraploid migrants from South America were adapted to mesic areas of Australia and recently radiated in the EZ, including in sandy dune fields (only 1.2 Ma old), after developing drought adaptations. Coalescent and maximum likelihood analyses suggest that Nicotiana section Suaveolentes arrived on the continent around 6 Ma, with the ancestors of the Pilbara (Western Australian) lineages radiating there at the onset of extreme aridity 5 Ma by locally adapting to these various ancient, highly stable habitats. The Pilbara thus served as both a mesic refugium and cradle for adaptations to harsher conditions, due to its high topographical diversity, providing microhabitats with varying moisture levels and its proximity to the ocean, which buffers against extreme aridity. This enabled species like Nicotiana to survive in mesic refugia and subsequently adapt to more arid conditions. These results demonstrate that initially poorly adapted plant groups can develop novel adaptations in situ, permitting extensive and rapid dispersal despite the highly variable and unpredictable extreme conditions of the EZ. [ABSTRACT FROM AUTHOR]

Published

2024

26. Orthoptera-specific target enrichment (OR-TE) probes resolve relationships over broad phylogenetic scales.

Author

Shin, Seunggwan, Baker, Austin J., Enk, Jacob, McKenna, Duane D., Foquet, Bert, Vandergast, Amy G., Weissman, David B., and Song, Hojun

Abstract

Phylogenomic data are revolutionizing the field of insect phylogenetics. One of the most tenable and cost-effective methods of generating phylogenomic data is target enrichment, which has resulted in novel phylogenetic hypotheses and revealed new insights into insect evolution. Orthoptera is the most diverse insect order within polyneoptera and includes many evolutionarily and ecologically interesting species. Still, the order as a whole has lagged behind other major insect orders in terms of transitioning to phylogenomics. In this study, we developed an Orthoptera-specific target enrichment (OR-TE) probe set from 80 transcriptomes across Orthoptera. The probe set targets 1828 loci from genes exhibiting a wide range of evolutionary rates. The utility of this new probe set was validated by generating phylogenomic data from 36 orthopteran species that had not previously been subjected to phylogenomic studies. The OR-TE probe set captured an average of 1037 loci across the tested taxa, resolving relationships across broad phylogenetic scales. Our detailed documentation of the probe design and bioinformatics process is intended to facilitate the widespread adoption of this tool. [ABSTRACT FROM AUTHOR]

Published

2024

27. Phylogeny and evolution of hemipteran insects based on expanded genomic and transcriptomic data.

Author

Song, Nan, Wang, Miao-Miao, Huang, Wei-Chao, Wu, Zhi-Yi, Shao, Renfu, and Yin, Xin-Ming

Subjects

*ADAPTIVE radiation, *SCALE insects, *CRETACEOUS Period, *BIOLOGICAL fitness, *AGRICULTURE

Abstract

Background: Hemiptera is the fifth species-rich order of insects and the most species-rich order of hemimetabolous insects, including numerous insect species that are of agricultural or medical significance. Despite much effort and recent advance in inferring the Hemiptera phylogeny, some high-level relationships among superfamilies remain controversial. Results: We sequenced the genomes of 64 hemipteran species from 15 superfamilies and the transcriptomes of two additional scale insect species, integrating them with existing genomic and transcriptomic data to conduct a comprehensive phylogenetic analysis of Hemiptera. Our datasets comprise an average of 1625 nuclear loci of 315 species across 27 superfamilies of Hemiptera. Our analyses supported Cicadoidea and Cercopoidea as sister groups, with Membracoidea typically positioned as the sister to Cicadoidea + Cercopoidea. In most analyses, Aleyrodoidea was recovered as the sister group of all other Sternorrhyncha. A sister-group relationship was supported between Coccoidea and Aphidoidea + Phylloxeroidea. These relationships were further supported by four-cluster likelihood mapping analyses across diverse datasets. Our ancestral state reconstruction indicates phytophagy as the primary feeding strategy for Hemiptera as a whole. However, predation likely represents an ancestral state for Heteroptera, with several phytophagous lineages having evolved from predatory ancestors. Certain lineages, like Lygaeoidea, have undergone a reversal transition from phytophagy to predation. Our divergence time estimation placed the diversification of hemipterans to be between 60 and 150 million years ago. Conclusions: By expanding phylogenomic taxon sampling, we clarified the superfamily relationships within the infraorder Cicadomorpha. Our phylogenetic analyses supported the sister-group relationship between the superfamilies Cicadoidea and Cercopoidea, and the superfamily Membracoidea as the sister to Cicadoidea + Cercopoidea. Our divergence time estimation supported the close association of hemipteran diversification with the evolutionary success and adaptive radiation of angiosperms during the Cretaceous period. [ABSTRACT FROM AUTHOR]

Published

2024

28. Comparative and phylogenetic analyses of plastid genomes of the medicinally important genus Alisma (Alismataceae).

Author

Zhi-Qiong Lan, Wen Zheng, Talavera, Alicia, Ze-Long Nie, Jing Liu, Johnson, Gabriel, Xian-Mei Yin, Wen-Qi Zhao, Zong-Yi Zhao, Handy, Sara M., and Jun Wen

Subjects

WETLAND plants, CHROMOSOME duplication, CHINESE medicine, AQUATIC plants, POLYPLOIDY

Abstract

Alisma L. is a medicinally important genus of aquatic and wetland plants consisting of c. 10 recognized species. However, largely due to polyploidy and limited taxon and gene sampling, the phylogenomic relationships of Alisma remain challenging. In this study, we sequenced 34 accessions of Alismataceae, including eight of the ten species of Alisma, one species of Echinodorus and one species of Luronium, to perform comparative analyses of plastid genomes and phylogenetic analyses. Comparative analysis of plastid genomes revealed high sequence similarity among species within the genus. Our study analyzed structural changes and variations in the plastomes of Alisma, including IR expansion or contraction, and gene duplication or loss. Phylogenetic results suggest that Alisma is monophyletic, and constitutes four groups: (1) A. lanceolatum and A. canaliculatum; (2) the North American clade of A. subcordatum and A. triviale; (3) A. wahlenbergii and A. gramineum; and (4) A. plantago-aquatica from Eurasia and northern Africa with the eastern Asian A. orientale nested within it. Hence the results challenge the recognition of A. orientale as a distinct species and raise the possibility of treating it as a synonym of the widespread A. plantago-aquatica. The well-known Alismatis Rhizoma (Zexie) in Chinese medicine was likely derived from the morphologically variable Alisma plantago-aquatica throughout its long history of cultivation in Asia. The plastome phylogenetic results also support the tetraploid A. lanceolatum as the likely maternal parent of the hexaploid eastern Asian A. canaliculatum [ABSTRACT FROM AUTHOR]

Published

2024

29. Developing Asparagaceae1726: An Asparagaceae‐specific probe set targeting 1726 loci for Hyb‐Seq and phylogenomics in the family.

Author

Bentz, Philip C. and Leebens‐Mack, Jim

Subjects

*ASPARAGACEAE, *ANGIOSPERMS, *LOCUS (Mathematics), *TOPOLOGY, *RNA

Abstract

Premise: Target sequence capture (Hyb‐Seq) is a cost‐effective sequencing strategy that employs RNA probes to enrich for specific genomic sequences. By targeting conserved low‐copy orthologs, Hyb‐Seq enables efficient phylogenomic investigations. Here, we present Asparagaceae1726—a Hyb‐Seq probe set targeting 1726 low‐copy nuclear genes for phylogenomics in the angiosperm family Asparagaceae—which will aid the often‐challenging delineation and resolution of evolutionary relationships within Asparagaceae. Methods: Here we describe and validate the Asparagaceae1726 probe set (https://github.com/bentzpc/Asparagaceae1726) in six of the seven subfamilies of Asparagaceae. We perform phylogenomic analyses with these 1726 loci and evaluate how inclusion of paralogs and bycatch plastome sequences can enhance phylogenomic inference with target‐enriched data sets. Results: We recovered at least 82% of target orthologs from all sampled taxa, and phylogenomic analyses resulted in strong support for all subfamilial relationships. Additionally, topology and branch support were congruent between analyses with and without inclusion of target paralogs, suggesting that paralogs had limited effect on phylogenomic inference. Discussion: Asparagaceae1726 is effective across the family and enables the generation of robust data sets for phylogenomics of any Asparagaceae taxon. Asparagaceae1726 establishes a standardized set of loci for phylogenomic analysis in Asparagaceae, which we hope will be widely used for extensible and reproducible investigations of diversification in the family. [ABSTRACT FROM AUTHOR]

Published

2024

30. Genomic Sequencing and Functional Analysis of the Ex-Type Strain of Malbranchea zuffiana.

Author

Granados-Casas, Alan Omar, Fernández-Bravo, Ana, Stchigel, Alberto Miguel, and Cano-Lira, José Francisco

Subjects

*PLANT cell walls, *PLANT enzymes, *METABOLITES, *PROTEOLYSIS, *FUNCTIONAL analysis

Abstract

Malbranchea is a genus within the order Onygenales (phylum Ascomycota) that includes predominantly saprobic cosmopolitan species. Despite its ability to produce diverse secondary metabolites, no genomic data for Malbranchea spp. are currently available in databases. Therefore, in this study, we obtained, assembled, and annotated the genomic sequence of the ex-type strain of Malbranchea zuffiana (CBS 219.58). For the genomic sequencing, we employed both the Illumina and PacBio platforms, followed by hybrid assembly using MaSuRCA. Quality assessment of the assembly was performed using QUAST and BUSCO tools. Annotation was conducted using BRAKER2, and functional annotation was completed with InterProScan. The resulting genome was of high quality, with a size of 26.46 Mbp distributed across 38 contigs and a BUSCO completion rate of 95.7%, indicating excellent contiguity and assembly completeness. A total of 8248 protein-encoding genes were predicted, with functional annotations assigned to 73.9% of them. Moreover, 82 genes displayed homology with entries in the Pathogen Host Interactions (PHI) database, while 494 genes exhibited similarity to entries in the Carbohydrate-Active Enzymes (CAZymes) database. Furthermore, 30 biosynthetic gene clusters (BGCs) were identified, suggesting significant potential for the biosynthesis of diverse secondary metabolites. Comparative functional analysis with closely related species unveiled a considerable abundance of domains linked to enzymes involved in keratin degradation, alongside a restricted number of domains associated with enzymes engaged in plant cell wall degradation in all studied species of the Onygenales. This genome-based elucidation not only enhances our comprehension of the biological characteristics of M. zuffiana but also furnishes valuable insights for subsequent investigations concerning Malbranchea species and the order Onygenales. [ABSTRACT FROM AUTHOR]

Published

2024

31. Fundamental Patterns of Structural Evolution Revealed by Chromosome-Length Genomes of Cactophilic Drosophila.

Author

Benowitz, Kyle M, Allan, Carson W, Jaworski, Coline C, Sanderson, Michael J, Diaz, Fernando, Chen, Xingsen, and Matzkin, Luciano M

Subjects

*MOLECULAR evolution, *DROSOPHILA, *PHYLOGENY, *ECOLOGICAL models, *CHROMOSOMES

Abstract

A thorough understanding of adaptation and speciation requires model organisms with both a history of ecological and phenotypic study as well as a complete set of genomic resources. In particular, high-quality genome assemblies of ecological model organisms are needed to assess the evolution of genome structure and its role in adaptation and speciation. Here, we generate new genomes of cactophilic Drosophila , a crucial model clade for understanding speciation and ecological adaptation in xeric environments. We generated chromosome-level genome assemblies and complete annotations for seven populations across Drosophila mojavensis , Drosophila arizonae , and Drosophila navojoa. We use these data first to establish the most robust phylogeny for this clade to date, and to assess patterns of molecular evolution across the phylogeny, showing concordance with a priori hypotheses regarding adaptive genes in this system. We then show that structural evolution occurs at constant rate across the phylogeny, varies by chromosome, and is correlated with molecular evolution. These results advance the understanding of the D. mojavensis clade by demonstrating core evolutionary genetic patterns and integrating those patterns to generate new gene-level hypotheses regarding adaptation. Our data are presented in a new public database (cactusflybase.arizona.edu), providing one of the most in-depth resources for the analysis of inter- and intraspecific evolutionary genomic data. Furthermore, we anticipate that the patterns of structural evolution identified here will serve as a baseline for future comparative studies to identify the factors that influence the evolution of genome structure across taxa. [ABSTRACT FROM AUTHOR]

Published

2024

32. Evolutionary Insights from the Mitochondrial Genome of Oikopleura dioica: Sequencing Challenges, RNA Editing, Gene Transfers to the Nucleus, and tRNA Loss.

Author

Klirs, Yael, Novosolov, Maria, Gissi, Carmela, Garić, Rade, Pupko, Tal, Stach, Thomas, and Huchon, Dorothée

Subjects

*MITOCHONDRIAL DNA, *AMINOACYL-tRNA synthetases, *RNA editing, *MITOCHONDRIAL RNA, *GENETIC transformation, *TRANSFER RNA

Abstract

Sequencing the mitochondrial genome of the tunicate Oikopleura dioica is a challenging task due to the presence of long poly-A/T homopolymer stretches, which impair sequencing and assembly. Here, we report on the sequencing and annotation of the majority of the mitochondrial genome of O. dioica by means of combining several DNA and amplicon reads obtained by Illumina and MinIon Oxford Nanopore Technologies with public RNA sequences. We document extensive RNA editing, since all homopolymer stretches present in the mitochondrial DNA correspond to 6U-regions in the mitochondrial RNA. Out of the 13 canonical protein-coding genes, we were able to detect eight, plus an unassigned open reading frame that lacked sequence similarity to canonical mitochondrial protein-coding genes. We show that the nad3 gene has been transferred to the nucleus and acquired a mitochondria-targeting signal. In addition to two very short rRNAs, we could only identify a single tRNA (tRNA-Met), suggesting multiple losses of tRNA genes, supported by a corresponding loss of mitochondrial aminoacyl-tRNA synthetases in the nuclear genome. Based on the eight canonical protein-coding genes identified, we reconstructed maximum likelihood and Bayesian phylogenetic trees and inferred an extreme evolutionary rate of this mitochondrial genome. The phylogenetic position of appendicularians among tunicates, however, could not be accurately determined. [ABSTRACT FROM AUTHOR]

Published

2024

33. Complete Genome Sequencing and Comparative Phylogenomics of Nine African Swine Fever Virus (ASFV) Isolates of the Virulent East African p72 Genotype IX without Viral Sequence Enrichment.

Author

Domelevo Entfellner, Jean-Baka, Okoth, Edward Abworo, Onzere, Cynthia Kavulani, Upton, Chris, Njau, Emma Peter, Höper, Dirk, Henson, Sonal P., Oyola, Samuel O., Bochere, Edwina, Machuka, Eunice M., and Bishop, Richard P.

Subjects

*AFRICAN swine fever virus, *WHOLE genome sequencing, *SWINE, *WILD boar, *NUCLEOTIDE sequencing, *AFRICAN swine fever

Abstract

African swine fever virus (ASFV) is endemic to African wild pigs (Phacochoerus and Potamochoerus), in which viral infection is asymptomatic, and Ornithodoros soft ticks. However, ASFV causes a lethal disease in Eurasian domestic pigs (Sus scrofa). While Sub-Saharan Africa is believed to be the original home of ASFV, publicly available whole-genome ASFV sequences show a strong bias towards p72 Genotypes I and II, which are responsible for domestic pig pandemics outside Africa. To reduce this bias, we hereby describe nine novel East African complete genomes in p72 Genotype IX and present the phylogenetic analysis of all 16 available Genotype IX genomes compared with other ASFV p72 clades. We also document genome-level differences between one specific novel Genotype IX genome sequence (KE/2013/Busia.3) and a wild boar cell-passaged derivative. The Genotype IX genomes clustered with the five available Genotype X genomes. By contrast, Genotype IX and X genomes were strongly phylogenetically differentiated from all other ASFV genomes. The p72 gene region, on which the p72-based virus detection primers are derived, contains consistent SNPs in Genotype IX, potentially resulting in reduced sensitivity of detection. In addition to the abovementioned cell-adapted variant, eight novel ASFV Genotype IX genomes were determined: five from viruses passaged once in primary porcine peripheral blood monocytes and three generated from DNA isolated directly from field-sampled kidney tissues. Based on this methodological simplification, genome sequencing of ASFV field isolates should become increasingly routine and result in a rapid expansion of knowledge pertaining to the diversity of African ASFV at the whole-genome level. [ABSTRACT FROM AUTHOR]

Published

2024

34. Comments on the Taxonomic Status of the Genus Imelda (Riodinidae: Riodininae).

Author

Pfeiler, Edward

Subjects

*POPULATION differentiation, *MOLECULAR genetics, *FRENCH people, *GENOMICS, *SEXUAL dimorphism, *CYTOCHROME oxidase

Abstract

This document provides a commentary on the taxonomic status of the butterfly genus Imelda within the Riodinidae family. The authors argue against classifying Imelda as a subgenus of Echenais and present evidence supporting its recognition as a separate genus. They highlight the genetic and morphological differences between Imelda and Echenais, as well as the genetic divergence between Imelda and other valid riodinid genera. The article also discusses a study on the genetic differences between populations of the butterfly species Echenais thelephus in different geographic regions, suggesting species-level separation. The authors conclude by calling for further research on the taxonomy and ecology of closely related species. [Extracted from the article]

Published

2024

35. Diagnostic applicability of mitogenomics in uncovering intraspecific carangid diversifications: insights into phylogeny, divergence time, and characterization of two cryptic Selaroides leptolepis mitogenomes.

Author

Halasan, Lorenzo C. and Lin, Hsiu-Chin

Subjects

*YELLOWTAIL, *FISH populations, *MITOCHONDRIAL DNA, *PHYLOGENY, *MICROSATELLITE repeats, *TRANSFER RNA

Abstract

Carangidae is an economically important fish family comprised of 32 genera with more than 140 circumglobally distributed species. Its members exhibit vast differences in morphology and lifestyle, thus making them compelling subjects for evolutionary studies. Recently, more works on carangids have detected the presence of cryptic lineages through molecular and/or non-molecular techniques. Credited for its inherent amplification efficiency, mitophylogenomics became effective in opening avenues to further understand higher-level interrelationships in many fish groups. However, the mitophylogenomic approach has not yet been widely applied to infer evolutionary history at the lower-level interrelationships, especially on cryptic representatives. In this study, we evaluated the diagnostic applicability of mitogenomes in detecting population-level divergences within Carangidae. Using the mitogenomes, we detected intraspecific divergences on some taxa, namely Caranx melampygus, Selaroides leptolepis, Seriola lalandi, Decapterus maruadsi, and Trachurus trachurus, with divergences highly correspondent to that of their geographic origins. Additionally, a widespread Pacific arrangement was also detected for S. rivoliana. Our discoveries were highly corroborative with findings from other Carangidae studies which utilized different diagnostic markers (e.g., SNPs, microsatellites, morphometrics, parasites). Dated phylogeny also suggested that intraspecific diversifications occurred during the Late Neogene. Likewise, we characterized two mitogenomes from different cryptic lineages of Selaroides leptolepis and revealed that the two mitogenomes were K2P pairwise = 5.58% different from each other. Its genetic compositions included 13 protein-coding genes, 2 rRNA genes, 22 tRNA genes, and a control region. These findings paved way for future evolutionary insights into the divergence histories of other fish populations. [ABSTRACT FROM AUTHOR]

Published

2024

36. Plastome Evolution and Comparative Analyses of a Recently Radiated Genus Vanda (Aeridinae, Orchidaceae).

Author

Lei, Wanshun, Zhou, Peng, Pei, Zelong, Liu, Yizhen, Luo, Yan, and Xiang, Xiaoguo

Subjects

*GENOME size, *GENETIC markers, *ORCHIDS, *COMPARATIVE studies, *DECORATION & ornament

Abstract

Vanda R.Br. is an epiphytic orchid genus with significant horticultural and ornamental value. Previous molecular studies expanded Vanda including some members from five other genera. However, the interspecific relationships of this recently radiated genus have remained unclear based on several DNA markers until now. In this study, the complete plastome has been used to infer the phylogenetic relationships of Vanda s.l. The five newly obtained plastomes ranged from 146,340 bp to 149,273 bp in length, with a GC content ranging from 36.5% to 36.7%. The five plastomes contained 74 protein-coding genes (CDSs), 38 tRNAs, and 8 rRNAs, and their ndh genes underwent loss or pseudogenization. Comparative plastome analyses of 13 Vanda species revealed high conservation in terms of genome size, structure, and gene order, except for a large inversion from trnGGCC to ycf3 in V. coerulea. Moreover, six CDSs and five non-CDSs were selected as candidate DNA barcodes. Our phylogenetic analyses demonstrated that Vanda s.l. is a monophyletic group with high supporting values based on five different datasets (complete plastome with one IR, 68 CDSs, LSC, five hypervariable non-CDSs, and six hypervariable CDSs), while the phylogenetic relationships among species were fully resolved based on the complete plastome with one IR dataset. Our results confirmed that the complete plastome has a great power in resolving the phylogenetic relationships of recently radiated lineages. [ABSTRACT FROM AUTHOR]

Published

2024

37. Phylogeny and evolution of streptophyte algae.

Author

Bierenbroodspot, Maaike J, Pröschold, Thomas, Fürst-Jansen, Janine M R, Vries, Sophie de, Irisarri, Iker, Darienko, Tatyana, and Vries, Jan de

Subjects

*NUMBERS of species, *PHYLOGENY, *SPECIES, *BIOLOGY, *SIGNALS & signaling

Abstract

The Streptophyta emerged about a billion years ago. Nowadays, this branch of the green lineage is most famous for one of its clades, the land plants (Embryophyta). Although Embryophyta make up the major share of species numbers in Streptophyta, there is a diversity of probably >5000 species of streptophyte algae that form a paraphyletic grade next to land plants. Here, we focus on the deep divergences that gave rise to the diversity of streptophytes, hence particularly on the streptophyte algae. Phylogenomic efforts have not only clarified the position of streptophyte algae relative to land plants, but recent efforts have also begun to unravel the relationships and major radiations within streptophyte algal diversity. We illustrate how new phylogenomic perspectives have changed our view on the evolutionary emergence of key traits, such as intricate signalling networks that are intertwined with multicellular growth and the chemodiverse hotbed from which they emerged. These traits are key for the biology of land plants but were bequeathed from their algal progenitors. [ABSTRACT FROM AUTHOR]

Published

2024

38. Complete chloroplast genome of endangered species Dipterocarpus retusus Blume (Dipterocarpaceae) and its phylogenetic implications.

Author

Tao, Yu-Tian, Yuan, Meng, Li, Qin-Qin, and Sun, Zhong-Shuai

Subjects

RIBOSOMAL RNA, ENDANGERED species, PHYLOGENY, GENOMES, DIPTEROCARPACEAE, CHLOROPLAST DNA

Abstract

Dipterocarpus retusus Blume is an endangered species on the IUCN Red List. In this study, we reported the complete chloroplast (cp) genome of D. retusus (GenBank accession number: OP271853). The cp genome was 154,303 bp long, with a large single-copy (LSC) region of 85,586 bp and a small single-copy (SSC) region of 20,273 bp separated by a pair of inverted repeats (IRs) of 24,222 bp. It encodes 128 genes, including 84 protein-coding genes, 36 tRNA genes, and eight ribosomal RNA genes. We also reconstructed the cp genome phylogeny of Dipterocarpus, which indicated D. retusus was closely related with the sympatric species D. gracilis. This study may contribute valuable information to the phylogenetic relationships within the genus Dipterocarpus. [ABSTRACT FROM AUTHOR]

Published

2024

39. The complete plastid genome of Polygonatum gracile P. Y. Li (Asparagaceae): characterization and phylogeny

Author

Wen-ping Cheng, Jin-hao Chen, and Ming-ying Zhang

Subjects

Polygonatum gracile, plastid genome, phylogenomics, phylogenetic relationship, Genetics, QH426-470

Abstract

Polygonatum gracile P. Y. Li is a perennial rhizomatous medicinal herb endemic to China with recognized medicinal value. Here, the first complete plastid genome of P. gracile is reported and characterized, and the phylogenetic relationships of P. gracile with other Polygonatum species are clarified by phylogenetic inferences based on complete plastid genome sequences. The complete plastid genome of P. gracile is 155,734 bp in length and exhibits the typical quadripartite circular structure consisting of a large single-copy (LSC, 84,385 bp) region, a small single-copy (SSC, 18,519 bp) region, and a pair of inverted repeat regions (IRa/b, 26,415 bp). A total of 112 unique genes, including 78 protein-coding genes, 30 tRNA genes, and four rRNA genes were identified. Seven protein-coding genes, eight tRNA genes, and four rRNA genes were duplicated in the IR regions. Phylogenetic reconstructions indicated that P. gracile belongs to sect. Verticillata and is most closely related to P. zanlanscianense Pamp. This study provides a basis for further phylogenetic reconstructions, conservation and utilization of Polygonatum species.

Published

2024

40. Chronospaces: An R package for the statistical exploration of divergence times promotes the assessment of methodological sensitivity

Author

Nicolás Mongiardino Koch and Pablo Milla Carmona

Subjects

chronospaces, divergence times, diversification, fossils, phylogenetic inference, phylogenomics, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract Much of our understanding of the history of life hinges upon time calibration, the process of assigning absolute times to cladogenetic events. Bayesian approaches to time‐scaling phylogenetic trees have dramatically grown in complexity, and depend today upon numerous methodological choices. Arriving at objective justifications for all of these is difficult and time‐consuming. Thus, divergence times are routinely inferred under only one or a handful of parametric conditions, often times chosen arbitrarily. Progress towards building robust biological timescales necessitates the development of better methods to visualize and quantify the sensitivity of results to these decisions. Here, we present an R package that assists in this endeavour through the use of chronospaces, that is, graphical representations summarizing variation in the node ages contained in time‐calibrated trees. We further test this approach by estimating divergence times for three empirical datasets—spanning widely differing evolutionary timeframes—using the software PhyloBayes. Our results reveal large differences in the impact of many common methodological decisions, with the choice of clock (uncorrelated vs autocorrelated) and loci having strong effects on inferred ages. Other decisions have comparatively minor consequences, including the use of the computationally intensive site‐heterogeneous model CAT‐GTR, whose effect might only be discernible for exceedingly old divergences (e.g. the deepest eukaryote nodes). The package chronospace implements a range of graphical and analytical tools that assist in the exploration of sensitivity and the prioritization of computational resources in the inference of divergence times.

Published

2024

41. Expanded gene and taxon sampling of diplomonads shows multiple switches to parasitic and free-living lifestyle

Author

Monika M. Wiśniewska, Eric D. Salomaki, Jeffrey D. Silberman, Kristina X. Terpis, Eva Mazancová, Petr Táborský, Vasana Jinatham, Eleni Gentekaki, Ivan Čepička, and Martin Kolisko

Subjects

Diplomonads, Phylogenomics, Phylogenetics, Transcriptomics, Parasitic ancestry signals, Biology (General), QH301-705.5

Abstract

Abstract Background Diplomonads are anaerobic flagellates classified within Metamonada. They contain both host-associated commensals and parasites that reside in the intestinal tracts of animals, including humans (e.g., Giardia intestinalis), as well as free-living representatives that inhabit freshwater and marine anoxic sediments (e.g., Hexamita inflata). The evolutionary trajectories within this group are particularly unusual as the free-living taxa appear to be nested within a clade of host-associated species, suggesting a reversal from host-dependence to a secondarily free-living lifestyle. This is thought to be an exceedingly rare event as parasites often lose genes for metabolic pathways that are essential to a free-living life strategy, as they become increasingly reliant on their host for nutrients and metabolites. To revert to a free-living lifestyle would require the reconstruction of numerous metabolic pathways. All previous studies of diplomonad evolution suffered from either low taxon sampling, low gene sampling, or both, especially among free-living diplomonads, which has weakened the phylogenetic resolution and hindered evolutionary insights into this fascinating transition. Results We sequenced transcriptomes from 1 host-associated and 13 free-living diplomonad isolates; expanding the genome scale data sampling for diplomonads by roughly threefold. Phylogenomic analyses clearly show that free-living diplomonads form several branches nested within endobiotic species. Moreover, the phylogenetic distribution of genes related to an endobiotic lifestyle suggest their acquisition at the root of diplomonads, while traces of these genes have been identified in free-living diplomonads as well. Based on these results, we propose an evolutionary scenario of ancestral and derived lifestyle transitions across diplomonads. Conclusions Free-living taxa form several clades nested within endobiotic taxa in our phylogenomic analyses, implying multiple transitions between free-living and endobiotic lifestyles. The evolutionary history of numerous virulence factors corroborates the inference of an endobiotic ancestry of diplomonads, suggesting that there have been several reversals to a free-living lifestyle. Regaining host independence may have been facilitated by a subset of laterally transferred genes. We conclude that the extant diversity of diplomonads has evolved from a non-specialized endobiont, with some taxa becoming highly specialized parasites, others becoming free-living, and some becoming capable of both free-living and endobiotic lifestyles.

Published

2024

42. Orthoptera-specific target enrichment (OR-TE) probes resolve relationships over broad phylogenetic scales

Author

Seunggwan Shin, Austin J. Baker, Jacob Enk, Duane D. McKenna, Bert Foquet, Amy G. Vandergast, David B. Weissman, and Hojun Song

Subjects

Phylogenomics, Hybrid capture, Transcriptome, Systematics, Medicine, Science

Abstract

Abstract Phylogenomic data are revolutionizing the field of insect phylogenetics. One of the most tenable and cost-effective methods of generating phylogenomic data is target enrichment, which has resulted in novel phylogenetic hypotheses and revealed new insights into insect evolution. Orthoptera is the most diverse insect order within polyneoptera and includes many evolutionarily and ecologically interesting species. Still, the order as a whole has lagged behind other major insect orders in terms of transitioning to phylogenomics. In this study, we developed an Orthoptera-specific target enrichment (OR-TE) probe set from 80 transcriptomes across Orthoptera. The probe set targets 1828 loci from genes exhibiting a wide range of evolutionary rates. The utility of this new probe set was validated by generating phylogenomic data from 36 orthopteran species that had not previously been subjected to phylogenomic studies. The OR-TE probe set captured an average of 1037 loci across the tested taxa, resolving relationships across broad phylogenetic scales. Our detailed documentation of the probe design and bioinformatics process is intended to facilitate the widespread adoption of this tool.

Published

2024

43. Phylogeny and evolution of hemipteran insects based on expanded genomic and transcriptomic data

Author

Nan Song, Miao-Miao Wang, Wei-Chao Huang, Zhi-Yi Wu, Renfu Shao, and Xin-Ming Yin

Subjects

Hemiptera, Cicadomorpha, Phylogenomics, Single-copy nuclear gene, Biology (General), QH301-705.5

Abstract

Abstract Background Hemiptera is the fifth species-rich order of insects and the most species-rich order of hemimetabolous insects, including numerous insect species that are of agricultural or medical significance. Despite much effort and recent advance in inferring the Hemiptera phylogeny, some high-level relationships among superfamilies remain controversial. Results We sequenced the genomes of 64 hemipteran species from 15 superfamilies and the transcriptomes of two additional scale insect species, integrating them with existing genomic and transcriptomic data to conduct a comprehensive phylogenetic analysis of Hemiptera. Our datasets comprise an average of 1625 nuclear loci of 315 species across 27 superfamilies of Hemiptera. Our analyses supported Cicadoidea and Cercopoidea as sister groups, with Membracoidea typically positioned as the sister to Cicadoidea + Cercopoidea. In most analyses, Aleyrodoidea was recovered as the sister group of all other Sternorrhyncha. A sister-group relationship was supported between Coccoidea and Aphidoidea + Phylloxeroidea. These relationships were further supported by four-cluster likelihood mapping analyses across diverse datasets. Our ancestral state reconstruction indicates phytophagy as the primary feeding strategy for Hemiptera as a whole. However, predation likely represents an ancestral state for Heteroptera, with several phytophagous lineages having evolved from predatory ancestors. Certain lineages, like Lygaeoidea, have undergone a reversal transition from phytophagy to predation. Our divergence time estimation placed the diversification of hemipterans to be between 60 and 150 million years ago. Conclusions By expanding phylogenomic taxon sampling, we clarified the superfamily relationships within the infraorder Cicadomorpha. Our phylogenetic analyses supported the sister-group relationship between the superfamilies Cicadoidea and Cercopoidea, and the superfamily Membracoidea as the sister to Cicadoidea + Cercopoidea. Our divergence time estimation supported the close association of hemipteran diversification with the evolutionary success and adaptive radiation of angiosperms during the Cretaceous period.

Published

2024

44. Complete chloroplast genome of endangered species Dipterocarpus retusus Blume (Dipterocarpaceae) and its phylogenetic implications

Author

Yu-Tian Tao, Meng Yuan, Qin-Qin Li, and Zhong-Shuai Sun

Subjects

Dipterocarpus retusus, Dipterocarpus, chloroplast genome, phylogenomics, Genetics, QH426-470

Abstract

Dipterocarpus retusus Blume is an endangered species on the IUCN Red List. In this study, we reported the complete chloroplast (cp) genome of D. retusus (GenBank accession number: OP271853). The cp genome was 154,303 bp long, with a large single-copy (LSC) region of 85,586 bp and a small single-copy (SSC) region of 20,273 bp separated by a pair of inverted repeats (IRs) of 24,222 bp. It encodes 128 genes, including 84 protein-coding genes, 36 tRNA genes, and eight ribosomal RNA genes. We also reconstructed the cp genome phylogeny of Dipterocarpus, which indicated D. retusus was closely related with the sympatric species D. gracilis. This study may contribute valuable information to the phylogenetic relationships within the genus Dipterocarpus.

Published

2024

45. Complete chloroplast genome sequences of Dracocephalum argunense and D. integrifolium (Lamiaceae: Nepetinae)

Author

Rong-Qing Zhang, Xiao-Lei Ma, Ya-Ping Chen, and Chun-Lei Xiang

Subjects

Dracocephalum, medicinal plants, Nepetoideae, phylogenomics, plastome, Ecology, QH540-549.5

Abstract

Dracocephalum is a large genus comprises approximately 80 species of perennial herbs, mainly distributed in high elevation regions of temperate and Central Asia, with about half native to China. Within the genus, D. argunense and D. integrifolium are important herbs with great medicinal value. We sequenced plastomes of these two species for the first time. These plastomes showed a typical quadripartite structure and the length varied from 149,978 bp (D. integrifolium) to 150,802 bp (D. argunense). Plastomes of D. argunense and D. integrifolium included 127 and 133 genes, respectively. Phylogenetic analyses supported the monophyly of the redefined Dracocephalum and systematic relationships within the sampled species were well resolved. Our study added new genetic information about D. argunense and D. integrifolium and has great potential for further diversity studies, phylogenetic studies, and understanding of evolutionary history in Dracocephalum.

Published

2024

46. Genomics, the diversification of mammals, and the evolution of placentation.

Author

Carter, Anthony M.

Subjects

*YOLK sac, *CHORIONIC gonadotropins, *MOLECULAR phylogeny, *EVIDENCE gaps, *MAMMAL evolution, *TROPHOBLAST

Abstract

When and why did variations in placental structure and function evolve? Such questions cannot be addressed without a reliable version of mammalian phylogeny. Twenty-five years ago, the mammalian tree was reshaped by molecular phylogenetics. Soon it was shown, in contrast to prevailing theories, that the common ancestor of placental mammals had invasive placentation. Subsequently, evolution of many other features of extraembryonic membranes was addressed. This endeavour stimulated research to fill gaps in our knowledge of placental morphology. Last year the mammalian tree was again revised based on a large set of genomic data. With that in mind, this review provides an update on placentation in the nineteen orders of placental mammals, incorporating much recent data. The principal features such as shape, interdigitation, the interhaemal barrier and the yolk sac are summarized in synoptic tables. The evolution of placental traits and its timing is then explored by reference to the revised mammalian tree. Examples are the early appearance of epitheliochorial placentation in the common ancestor of artiodactyls, perissodactyls, pangolins and carnivores (with reversion to invasive forms in the latter) and later refinements such as the binucleate trophoblast cells and placentomes of ruminants. In primates, the intervillous space gradually evolved from the more basic labyrinth whereas trophoblast invasion of the decidua was a late development in humans and great apes. Only seldom can we glimpse the "why" of placental evolution. The best examples concern placental hormones, including some striking examples of convergent evolution such as the chorionic gonadotropins of primates and equids. In concluding, I review current ideas about what drives placental evolution and identify significant gaps in our knowledge of placentation, including several relevant to the evolution of placentation in primates. [Display omitted] • Placental evolution in mammals is interpreted from the newly revised phylogenomic tree. • Traits with a deep origin include the four-chambered allantoic sac of afrotherians • Traits with a late origin include the intervillous space of haplorrhine primates. • Some morphological traits can be linked to hormone secretion in ruminants, horses, rodents and primates. [ABSTRACT FROM AUTHOR]

Published

2024

47. Seqrutinator: scrutiny of large protein superfamily sequence datasets for the identification and elimination of non-functional homologues

Author

Agustín Amalfitano, Nicolás Stocchi, Hugo Marcelo Atencio, Fernando Villarreal, and Arjen ten Have

Subjects

Phylogenomics, Multiple sequence alignment, Phylogeny, Pseudogene, Gene model, Classification, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Seqrutinator is an objective, flexible pipeline that removes sequences with sequencing and/or gene model errors and sequences from pseudogenes from complex, eukaryotic protein superfamilies. Testing Seqrutinator on major superfamilies BAHD, CYP, and UGT removes only 1.94% of SwissProt entries, 14% of entries from the model plant Arabidopsis thaliana, but 80% of entries from Pinus taeda’s recent complete proteome. Application of Seqrutinator on crude BAHDomes, CYPomes, and UGTomes obtained from 16 plant proteomes shows convergence of the numbers of paralogues. MSAs, phylogenies, and particularly functional clustering improve drastically upon Seqrutinator application, indicating good performance.

Published

2024

48. Diversity and specificity of molecular functions in cyanobacterial symbionts

Author

Ellen S. Cameron, Santiago Sanchez, Nick Goldman, Mark L. Blaxter, and Robert D. Finn

Subjects

Mutualism, Facultative symbioses, Host-association, Biosynthetic gene clusters, Phylogenomics, Medicine, Science

Abstract

Abstract Cyanobacteria are globally occurring photosynthetic bacteria notable for their contribution to primary production and production of toxins which have detrimental ecosystem impacts. Furthermore, cyanobacteria can form mutualistic symbiotic relationships with a diverse set of eukaryotes, including land plants, aquatic plankton and fungi. Nevertheless, not all cyanobacteria are found in symbiotic associations suggesting symbiotic cyanobacteria have evolved specializations that facilitate host-interactions. Photosynthetic capabilities, nitrogen fixation, and the production of complex biochemicals are key functions provided by host-associated cyanobacterial symbionts. To explore if additional specializations are associated with such lifestyles in cyanobacteria, we have conducted comparative phylogenomics of molecular functions and of biosynthetic gene clusters (BGCs) in 984 cyanobacterial genomes. Cyanobacteria with host-associated and symbiotic lifestyles were concentrated in the family Nostocaceae, where eight monophyletic clades correspond to specific host taxa. In agreement with previous studies, symbionts are likely to provide fixed nitrogen to their eukaryotic partners, through multiple different nitrogen fixation pathways. Additionally, our analyses identified chitin metabolising pathways in cyanobacteria associated with specific host groups, while obligate symbionts had fewer BGCs. The conservation of molecular functions and BGCs between closely related symbiotic and free-living cyanobacteria suggests the potential for additional cyanobacteria to form symbiotic relationships than is currently known.

Published

2024

49. The genus Cortinarius should not (yet) be split

Author

Brigida Gallone, Thomas W. Kuyper, and Jorinde Nuytinck

Subjects

Phylogenomics, Classification, Nomenclature, Phylogenetic conflict, Botany, QK1-989

Abstract

Abstract The genus Cortinarius (Agaricales, Basidiomycota) is one of the most species-rich fungal genera, with thousands of species reported. Cortinarius species are important ectomycorrhizal fungi and form associations with many vascular plants globally. Until recently Cortinarius was the single genus of the family Cortinariaceae, despite several attempts to provide a workable, lower-rank hierarchical structure based on subgenera and sections. The first phylogenomic study for this group elevated the old genus Cortinarius to family level and the family was split into ten genera, of which seven were described as new. Here, by careful re-examination of the recently published phylogenomic dataset, we detected extensive gene-tree/species-tree conflicts using both concatenation and multispecies coalescent approaches. Our analyses demonstrate that the Cortinarius phylogeny remains unresolved and the resulting phylogenomic hypotheses suffer from very short and unsupported branches in the backbone. We can confirm monophyly of only four out of ten suggested new genera, leaving uncertain the relationships between each other and the general branching order. Thorough exploration of the tree space demonstrated that the topology on which Cortinarius revised classification relies on does not represent the best phylogenetic hypothesis and should not be used as constrained topology to include additional species. For this reason, we argue that based on available evidence the genus Cortinarius should not (yet) be split. Moreover, considering that phylogenetic uncertainty translates to taxonomic uncertainty, we advise for careful evaluation of phylogenomic datasets before proposing radical taxonomic and nomenclatural changes.

Published

2024

50. The plastome and phylogenetic status of Cotoneaster rosiflorus (Rosaceae)

Author

Kaikai Meng, Qiang Fan, Min Lin, and Shouhui Huang

Subjects

Cotoneaster, chloroplast genome, phylogenomics, chloroplast capture, Genetics, QH426-470

Abstract

Endemic to Taiwan Province, China, Cotoneaster rosiflorus Kun-Cheng Chang & Fu-Yuan Lu 2011 (Rosaceae) holds significant ecological and ornamental importance. Despite its value, research on its molecular data and phylogenetic position has remained limited. In this study, we addressed this gap by sequencing the genome-skimming data, assembling its plastome, and investigating its phylogenetic position. The plastome, spanning 159,449 bp in length, consisted of a large single-copy (87,433 bp), a small single-copy (19,262 bp), and two inverted repeat regions (26,377 bp). We annotated a total of 128 functional genes, including 84 protein-coding genes, 36 transfer genes, and eight ribosomal RNA genes. The phylogenetic results indicated that C. rosiflorus is closely related to C. dammerii, suggesting that C. rosiflorus might have captured its chloroplast from C. dammerii through hybridization and introgression events. This study offered valuable insights for forthcoming phylogenetic and population genetic investigations of Cotoneaster.

Published

2024