Your search keyword '"BUSCO"' showing total 33 results

1. A chromosome-level genome assembly of Solanum chilense, a tomato wild relative associated with resistance to salinity and drought.

Author

Molitor, Corentin, Kurowski, Tomasz J., de Almeida, Pedro M. Fidalgo, Kevei, Zoltan, Spindlow, Daniel J., Kaitholil, Steffimol R. Chacko, Iheanyichi, Justice U., Prasanna, H. C., Thompson, Andrew J., and Mohareb, Fady R.

Subjects

TOMATOES, GENOMES, SUSTAINABILITY, SOLANUM, SALINITY, DROUGHTS, GERMPLASM

Abstract

Introduction: Solanum chilense is a wild relative of tomato reported to exhibit resistance to biotic and abiotic stresses. There is potential to improve tomato cultivars via breeding with wild relatives, a process greatly accelerated by suitable genomic and genetic resources. Methods: In this study we generated a high-quality, chromosome-level, de novo assembly for the S. chilense accession LA1972 using a hybrid assembly strategy with ~180 Gbp of Illumina short reads and ~50 Gbp long PacBio reads. Further scaffolding was performed using Bionano optical maps and 10x Chromium reads. Results: The resulting sequences were arranged into 12 pseudomolecules using Hi-C sequencing. This resulted in a 901 Mbp assembly, with a completeness of 95%, as determined by Benchmarking with Universal Single-Copy Orthologs (BUSCO). Sequencing of RNA from multiple tissues resulting in ~219 Gbp of reads was used to annotate the genome assembly with an RNA-Seq guided gene prediction, and for a de novo transcriptome assembly. This chromosome-level, high-quality reference genome for S. chilense accession LA1972 will support future breeding efforts for more sustainable tomato production. Discussion: Gene sequences related to drought and salt resistance were compared between S. chilense and S. lycopersicum to identify amino acid variations with high potential for functional impact. These variants were subsequently analysed in 84 resequenced tomato lines across 12 different related species to explore the variant distributions. We identified a set of 7 putative impactful amino acid variants some of which may also impact on fruit development for example the ethylene-responsive transcription factor WIN1 and ethylene-insensitive protein 2. These variants could be tested for their ability to confer functional phenotypes to cultivars that have lost these variants. [ABSTRACT FROM AUTHOR]

Published

2024

2. A chromosome-level genome assembly of Solanum chilense, a tomato wild relative associated with resistance to salinity and drought

Author

Corentin Molitor, Tomasz J. Kurowski, Pedro M. Fidalgo de Almeida, Zoltan Kevei, Daniel J. Spindlow, Steffimol R. Chacko Kaitholil, Justice U. Iheanyichi, H. C. Prasanna, Andrew J. Thompson, and Fady R. Mohareb

Subjects

Genome assembly, S. chilense, BUSCO, drought, salt, transcriptome, Plant culture, SB1-1110

Abstract

IntroductionSolanum chilense is a wild relative of tomato reported to exhibit resistance to biotic and abiotic stresses. There is potential to improve tomato cultivars via breeding with wild relatives, a process greatly accelerated by suitable genomic and genetic resources.MethodsIn this study we generated a high-quality, chromosome-level, de novo assembly for the S. chilense accession LA1972 using a hybrid assembly strategy with ~180 Gbp of Illumina short reads and ~50 Gbp long PacBio reads. Further scaffolding was performed using Bionano optical maps and 10x Chromium reads. ResultsThe resulting sequences were arranged into 12 pseudomolecules using Hi-C sequencing. This resulted in a 901 Mbp assembly, with a completeness of 95%, as determined by Benchmarking with Universal Single-Copy Orthologs (BUSCO). Sequencing of RNA from multiple tissues resulting in ~219 Gbp of reads was used to annotate the genome assembly with an RNA-Seq guided gene prediction, and for a de novo transcriptome assembly. This chromosome-level, high-quality reference genome for S. chilense accession LA1972 will support future breeding efforts for more sustainable tomato production. DiscussionGene sequences related to drought and salt resistance were compared between S. chilense and S. lycopersicum to identify amino acid variations with high potential for functional impact. These variants were subsequently analysed in 84 resequenced tomato lines across 12 different related species to explore the variant distributions. We identified a set of 7 putative impactful amino acid variants some of which may also impact on fruit development for example the ethylene-responsive transcription factor WIN1 and ethylene-insensitive protein 2. These variants could be tested for their ability to confer functional phenotypes to cultivars that have lost these variants.

Published

2024

3. A phylogenomic perspective on the relationships of subfamilies in the family Geometridae (Lepidoptera).

Author

Murillo‐Ramos, Leidys, Twort, Victoria, Wahlberg, Niklas, and Sihvonen, Pasi

Subjects

*GEOMETRIDAE, *LEPIDOPTERA, *FAMILY relations, *SHOTGUN sequencing, *SPECIES

Abstract

Geometrid moths, the second largest radiation of Lepidoptera, have been the target of extensive phylogenetic studies. Those studies have flagged several problems in tree topology that have remained unanswered. We address three of those: (i) deep nodes of Geometridae (subfamilies Sterrhinae + Larentiinae, or Sterrhinae alone as sister to all other subfamilies), (ii) the taxonomic status of subfamily Orthostixinae and (iii) the systematic position of the genus Eumelea (classified in Desmobathrinae: Eumeleini or incertae sedis earlier). We address these questions by using a phylogenomic approach, a novel method on these moths, with up to 1000 protein‐coding genes extracted from whole‐genome shotgun sequencing data. Our datasets include representatives from all geometrid subfamilies and we analyse the data by using three different tree search strategies: partitioned models, GHOST model and multispecies coalescent analysis. Despite the extensive data, we found incongruences in tree topologies. Eumelea did not associate with Desmobathrinae as suggested earlier, but instead, it was recovered in three different phylogenetic positions, either as sister to Oenochrominae, Geometrinae or as sister to Oenochrominae + Geometrinae. Orthostixinae, represented by its type species, falls within Desmobathrinae. We propose the following taxonomic changes: we raise Eumeleini to subfamily rank as Eumeleinae stat. nov. and we treat Orthostixinae as a junior synonym of Desmobathrinae syn. nov. [ABSTRACT FROM AUTHOR]

Published

2023

4. Jute Genome Sequencing: An Indian Initiative

Author

Singh, Nagendra Kumar, Sarkar, Debabrata, Kole, Chittaranjan, Series Editor, Zhang, Liwu, editor, and Khan, Haseena, editor

Published

2022

5. First Draft Genome Assembly of Root-Lesion Nematode Pratylenchus scribneri Generated Using Long-Read Sequencing.

Author

Arora, Deepika, Hernandez, Alvaro G., Walden, Kimberly K. O., Fields, Christopher J., and Yan, Guiping

Subjects

*PRATYLENCHUS, *PLANT nematodes, *GENOME size, *GENOMES, *AMINO acid sequence, *PLANT protection

Abstract

Root-lesion nematodes (genus Pratylenchus) belong to a diverse group of plant-parasitic nematodes (PPN) with a worldwide distribution. Despite being an economically important PPN group of more than 100 species, genome information related to Pratylenchus genus is scarcely available. Here, we report the draft genome assembly of Pratylenchus scribneri generated on the PacBio Sequel IIe System using the ultra-low DNA input HiFi sequencing workflow. The final assembly created using 500 nematodes consisted of 276 decontaminated contigs, with an average contig N50 of 1.72 Mb and an assembled draft genome size of 227.24 Mb consisting of 51,146 predicted protein sequences. The benchmarking universal single-copy ortholog (BUSCO) analysis with 3131 nematode BUSCO groups indicated that 65.4% of the BUSCOs were complete, whereas 24.0%, 41.4%, and 1.8% were single-copy, duplicated, and fragmented, respectively, and 32.8% were missing. The outputs from GenomeScope2 and Smudgeplots converged towards a diploid genome for P. scribneri. The data provided here will facilitate future studies on host plant-nematode interactions and crop protection at the molecular level. [ABSTRACT FROM AUTHOR]

Published

2023

6. Transcriptome profiling of two contrasting pigeon pea (Cajanus cajan) genotypes in response to waterlogging stress.

Author

Tyagi, Anshika, Sharma, Sandhya, Srivastava, Harsha, Singh, Anuradha, Kaila, Tanvi, Ali, Sajad, Gaikwad, Ambika B., Singh, N. K., and Gaikwad, Kishor

Subjects

PIGEON pea, TRANSCRIPTOMES, GENOTYPES

Published

2023

7. Phylotranscriptomic Analyses of Mycoheterotrophic Monocots Show a Continuum of Convergent Evolutionary Changes in Expressed Nuclear Genes From Three Independent Nonphotosynthetic Lineages.

Author

Timilsena, Prakash Raj, Barrett, Craig F, Piñeyro-Nelson, Alma, Wafula, Eric K, Ayyampalayam, Saravanaraj, McNeal, Joel R, Yukawa, Tomohisa, Givnish, Thomas J, Graham, Sean W, Pires, J Chris, Davis, Jerrold I, Ané, Cécile, Stevenson, Dennis W, Leebens-Mack, Jim, Martínez-Salas, Esteban, Álvarez-Buylla, Elena R, and dePamphilis, Claude W

Subjects

*GENE expression, *MONOCOTYLEDONS, *GENES, *ORCHIDS, *PHOTOSYSTEMS, *MEMBRANE proteins

Abstract

Mycoheterotrophy is an alternative nutritional strategy whereby plants obtain sugars and other nutrients from soil fungi. Mycoheterotrophy and associated loss of photosynthesis have evolved repeatedly in plants, particularly in monocots. Although reductive evolution of plastomes in mycoheterotrophs is well documented, the dynamics of nuclear genome evolution remains largely unknown. Transcriptome datasets were generated from four mycoheterotrophs in three families (Orchidaceae, Burmanniaceae, Triuridaceae) and related green plants and used for phylogenomic analyses to resolve relationships among the mycoheterotrophs, their relatives, and representatives across the monocots. Phylogenetic trees based on 602 genes were mostly congruent with plastome phylogenies, except for an Asparagales + Liliales clade inferred in the nuclear trees. Reduction and loss of chlorophyll synthesis and photosynthetic gene expression and relaxation of purifying selection on retained genes were progressive, with greater loss in older nonphotosynthetic lineages. One hundred seventy-four of 1375 plant benchmark universally conserved orthologous genes were undetected in any mycoheterotroph transcriptome or the genome of the mycoheterotrophic orchid Gastrodia but were expressed in green relatives, providing evidence for massively convergent gene loss in nonphotosynthetic lineages. We designate this set of deleted or undetected genes Missing in Mycoheterotrophs (MIM). MIM genes encode not only mainly photosynthetic or plastid membrane proteins but also a diverse set of plastid processes, genes of unknown function, mitochondrial, and cellular processes. Transcription of a photosystem II gene (psb 29) in all lineages implies a nonphotosynthetic function for this and other genes retained in mycoheterotrophs. Nonphotosynthetic plants enable novel insights into gene function as well as gene expression shifts, gene loss, and convergence in nuclear genomes. [ABSTRACT FROM AUTHOR]

Published

2023

8. Transcriptome profiling of two contrasting pigeon pea (Cajanus cajan) genotypes in response to waterlogging stress

Author

Anshika Tyagi, Sandhya Sharma, Harsha Srivastava, Anuradha Singh, Tanvi Kaila, Sajad Ali, Ambika B. Gaikwad, N. K Singh, and Kishor Gaikwad

Subjects

pigeon pea, waterlogging stress, RNAseq, BUSCO, functional annotation, signaling, Genetics, QH426-470

Published

2023

9. Phylogenomic resolution of order- and family-level monocot relationships using 602 single-copy nuclear genes and 1375 BUSCO genes.

Author

Timilsena, Prakash Raj, Wafula, Eric K., Barrett, Craig F., Ayyampalayam, Saravanaraj, McNeal, Joel R., Rentsch, Jeremy D., McKain, Michael R., Heyduk, Karolina, Harkess, Alex, Villegente, Matthieu, Conran, John G., Illing, Nicola, Fogliani, Bruno, Ané, Cécile, Pires, J. Chris, Davis, Jerrold I., Zomlefer, Wendy B., Stevenson, Dennis W., Graham, Sean W., and Givnish, Thomas J.

Subjects

GENES, ARACEAE, LILIACEAE, TRANSCRIPTOMES

Abstract

We assess relationships among 192 species in all 12 monocot orders and 72 of 77 families, using 602 conserved single-copy (CSC) genes and 1375 benchmarking single-copy ortholog (BUSCO) genes extracted from genomic and transcriptomic datasets. Phylogenomic inferences based on these data, using both coalescentbased and supermatrix analyses, are largely congruent with the most comprehensive plastome-based analysis, and nuclear-gene phylogenomic analyses with less comprehensive taxon sampling. The strongest discordance between the plastome and nuclear gene analyses is the monophyly of a clade comprising Asparagales and Liliales in our nuclear gene analyses, versus the placement of Asparagales and Liliales as successive sister clades to the commelinids in the plastome tree. Within orders, around six of 72 families shifted supported inferred relationships in the plastome-based tree. In Poales, the nuclear data place a clade comprising Ecdeiocoleaceae+Joinvilleaceae as sister to the grasses (Poaceae); Typhaceae, (rather thanBromeliaceae)are resolved as sister to all other Poales. In Commelinales, nuclear data place Philydraceae sister to all other families rather than to a clade comprising Haemodoraceae+Pontederiaceae as seen in the plastome tree. In Liliales, nuclear data place Liliaceae sister to Smilacaceae, and Melanthiaceae are placed sister to all other Liliales except Campynemataceae. Finally, in Alismatales, nuclear data strongly place Tofieldiaceae, rather than Araceae, as sister to all the other families, providing an alternative resolution of what has been themost problematic node to resolve using plastid data, outside of those involving achlorophyllousmycoheterotrophs. As seen in numerous prior studies, the placement of orders Acorales and Alismatales as successive sister lineages to allother extantmonocots. Only 21.2% of BUSCOgenes were demonstrably single-copy, yet phylogenomic inferences based on BUSCO andCSCgenesdid notdiffer, and overall functional annotationsof thetwosetswere very similar. Our analyses also reveal significant gene tree-species tree discordance despite high support values, as expected given incomplete lineage sorting (ILS) related to rapid diversification. Our study advances understanding of monocot relationships and the robustness of phylogenetic inferences based on large numbers of nuclear single-copy genes that can be obtained from transcriptomes and genomes. [ABSTRACT FROM AUTHOR]

Published

2022

10. Phylogenomic resolution of order- and family-level monocot relationships using 602 single-copy nuclear genes and 1375 BUSCO genes

Author

Prakash Raj Timilsena, Eric K. Wafula, Craig F. Barrett, Saravanaraj Ayyampalayam, Joel R. McNeal, Jeremy D. Rentsch, Michael R. McKain, Karolina Heyduk, Alex Harkess, Matthieu Villegente, John G. Conran, Nicola Illing, Bruno Fogliani, Cécile Ané, J. Chris Pires, Jerrold I. Davis, Wendy B. Zomlefer, Dennis W. Stevenson, Sean W. Graham, Thomas J. Givnish, James Leebens-Mack, and Claude W. dePamphilis

Subjects

phylogenomics, phylotranscriptomics, monocots, conserved single-copy genes, BUSCO, concordance analysis, Plant culture, SB1-1110

Abstract

We assess relationships among 192 species in all 12 monocot orders and 72 of 77 families, using 602 conserved single-copy (CSC) genes and 1375 benchmarking single-copy ortholog (BUSCO) genes extracted from genomic and transcriptomic datasets. Phylogenomic inferences based on these data, using both coalescent-based and supermatrix analyses, are largely congruent with the most comprehensive plastome-based analysis, and nuclear-gene phylogenomic analyses with less comprehensive taxon sampling. The strongest discordance between the plastome and nuclear gene analyses is the monophyly of a clade comprising Asparagales and Liliales in our nuclear gene analyses, versus the placement of Asparagales and Liliales as successive sister clades to the commelinids in the plastome tree. Within orders, around six of 72 families shifted positions relative to the recent plastome analysis, but four of these involve poorly supported inferred relationships in the plastome-based tree. In Poales, the nuclear data place a clade comprising Ecdeiocoleaceae+Joinvilleaceae as sister to the grasses (Poaceae); Typhaceae, (rather than Bromeliaceae) are resolved as sister to all other Poales. In Commelinales, nuclear data place Philydraceae sister to all other families rather than to a clade comprising Haemodoraceae+Pontederiaceae as seen in the plastome tree. In Liliales, nuclear data place Liliaceae sister to Smilacaceae, and Melanthiaceae are placed sister to all other Liliales except Campynemataceae. Finally, in Alismatales, nuclear data strongly place Tofieldiaceae, rather than Araceae, as sister to all the other families, providing an alternative resolution of what has been the most problematic node to resolve using plastid data, outside of those involving achlorophyllous mycoheterotrophs. As seen in numerous prior studies, the placement of orders Acorales and Alismatales as successive sister lineages to all other extant monocots. Only 21.2% of BUSCO genes were demonstrably single-copy, yet phylogenomic inferences based on BUSCO and CSC genes did not differ, and overall functional annotations of the two sets were very similar. Our analyses also reveal significant gene tree-species tree discordance despite high support values, as expected given incomplete lineage sorting (ILS) related to rapid diversification. Our study advances understanding of monocot relationships and the robustness of phylogenetic inferences based on large numbers of nuclear single-copy genes that can be obtained from transcriptomes and genomes.

Published

2022

11. The community-curated Pristionchus pacificus genome facilitates automated gene annotation improvement in related nematodes

Author

Christian Rödelsperger

Subjects

Comparative genomics, Evolution, Phylogeny, Parasite, Caenorhabditis elegans, BUSCO, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The nematode Pristionchus pacificus is an established model organism for comparative studies with Caenorhabditis elegans. Over the past years, it developed into an independent animal model organism for elucidating the genetic basis of phenotypic plasticity. Community-based curations were employed recently to improve the quality of gene annotations of P. pacificus and to more easily facilitate reverse genetic studies using candidate genes from C. elegans. Results Here, I demonstrate that the reannotation of phylogenomic data from nine related nematode species using the community-curated P. pacificus gene set as homology data substantially improves the quality of gene annotations. Benchmarking of universal single copy orthologs (BUSCO) estimates a median completeness of 84% which corresponds to a 9% increase over previous annotations. Nevertheless, the ability to infer gene models based on homology already drops beyond the genus level reflecting the rapid evolution of nematode lineages. This also indicates that the highly curated C. elegans genome is not optimally suited for annotating non-Caenorhabditis genomes based on homology. Furthermore, comparative genomic analysis of apparently missing BUSCO genes indicates a failure of ortholog detection by the BUSCO pipeline due to the insufficient sample size and phylogenetic breadth of the underlying OrthoDB data set. As a consequence, the quality of multiple divergent nematode genomes might be underestimated. Conclusions This study highlights the need for optimizing gene annotation protocols and it demonstrates the benefit of a high quality genome for phylogenomic data of related species.

Published

2021

12. First Draft Genome Assembly of Root-Lesion Nematode Pratylenchus scribneri Generated Using Long-Read Sequencing

Author

Deepika Arora, Alvaro G. Hernandez, Kimberly K. O. Walden, Christopher J. Fields, and Guiping Yan

Subjects

root-lesion nematode, genome, ultra-low DNA input, contigs, sequencing, BUSCO, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Root-lesion nematodes (genus Pratylenchus) belong to a diverse group of plant-parasitic nematodes (PPN) with a worldwide distribution. Despite being an economically important PPN group of more than 100 species, genome information related to Pratylenchus genus is scarcely available. Here, we report the draft genome assembly of Pratylenchus scribneri generated on the PacBio Sequel IIe System using the ultra-low DNA input HiFi sequencing workflow. The final assembly created using 500 nematodes consisted of 276 decontaminated contigs, with an average contig N50 of 1.72 Mb and an assembled draft genome size of 227.24 Mb consisting of 51,146 predicted protein sequences. The benchmarking universal single-copy ortholog (BUSCO) analysis with 3131 nematode BUSCO groups indicated that 65.4% of the BUSCOs were complete, whereas 24.0%, 41.4%, and 1.8% were single-copy, duplicated, and fragmented, respectively, and 32.8% were missing. The outputs from GenomeScope2 and Smudgeplots converged towards a diploid genome for P. scribneri. The data provided here will facilitate future studies on host plant-nematode interactions and crop protection at the molecular level.

Published

2023

13. Technical considerations in Hi‐C scaffolding and evaluation of chromosome‐scale genome assemblies.

Author

Yamaguchi, Kazuaki, Kadota, Mitsutaka, Nishimura, Osamu, Ohishi, Yuta, Naito, Yuki, and Kuraku, Shigehiro

Subjects

*CHROMOSOMES, *GECKOS

Abstract

The recent development of ecological studies has been fueled by the introduction of massive information based on chromosome‐scale genome sequences, even for species for which genetic linkage is not accessible. This was enabled mainly by the application of Hi‐C, a method for genome‐wide chromosome conformation capture that was originally developed for investigating the long‐range interaction of chromatins. Performing genomic scaffolding using Hi‐C data is highly resource‐demanding and employs elaborate laboratory steps for sample preparation. It starts with building a primary genome sequence assembly as an input, which is followed by computation for genome scaffolding using Hi‐C data, requiring careful validation. This article presents technical considerations for obtaining optimal Hi‐C scaffolding results and provides a test case of its application to a reptile species, the Madagascar ground gecko (Paroedura picta). Among the metrics that are frequently used for evaluating scaffolding results, we investigate the validity of the completeness assessment of chromosome‐scale genome assemblies using single‐copy reference orthologues. [ABSTRACT FROM AUTHOR]

Published

2021

14. A phylogenomic study of Steganinae fruit flies (Diptera: Drosophilidae): strong gene tree heterogeneity and evidence for monophyly

Author

Guilherme Rezende Dias, Eduardo Guimarães Dupim, Thyago Vanderlinde, Beatriz Mello, and Antonio Bernardo Carvalho

Subjects

BUSCO, Incomplete lineage sorting, Introgression, Species tree, Evolution, QH359-425

Abstract

Abstract Background The Drosophilidae family is traditionally divided into two subfamilies: Drosophilinae and Steganinae. This division is based on morphological characters, and the two subfamilies have been treated as monophyletic in most of the literature, but some molecular phylogenies have suggested Steganinae to be paraphyletic. To test the paraphyletic-Steganinae hypothesis, here, we used genomic sequences of eight Drosophilidae (three Steganinae and five Drosophilinae) and two Ephydridae (outgroup) species and inferred the phylogeny for the group based on a dataset of 1,028 orthologous genes present in all species (> 1,000,000 bp). This dataset includes three genera that broke the monophyly of the subfamilies in previous works. To investigate possible biases introduced by small sample sizes and automatic gene annotation, we used the same methods to infer species trees from a set of 10 manually annotated genes that are commonly used in phylogenetics. Results Most of the 1,028 gene trees depicted Steganinae as paraphyletic with distinct topologies, but the most common topology depicted it as monophyletic (43.7% of the gene trees). Despite the high levels of gene tree heterogeneity observed, species tree inference in ASTRAL, in PhyloNet, and with the concatenation approach strongly supported the monophyly of both subfamilies for the 1,028-gene dataset. However, when using the concatenation approach to infer a species tree from the smaller set of 10 genes, we recovered Steganinae as a paraphyletic group. The pattern of gene tree heterogeneity was asymmetrical and thus could not be explained solely by incomplete lineage sorting (ILS). Conclusions Steganinae was clearly a monophyletic group in the dataset that we analyzed. In addition to ILS, gene tree discordance was possibly the result of introgression, suggesting complex branching processes during the early evolution of Drosophilidae with short speciation intervals and gene flow. Our study highlights the importance of genomic data in elucidating contentious phylogenetic relationships and suggests that phylogenetic inference for drosophilids based on small molecular datasets should be performed cautiously. Finally, we suggest an approach for the correction and cleaning of BUSCO-derived genomic datasets that will be useful to other researchers planning to use this tool for phylogenomic studies.

Published

2020

15. Assessing genome assembly quality prior to downstream analysis: N50 versus BUSCO.

Author

Jauhal, April A. and Newcomb, Richard D.

Subjects

*GENOMES, *PUBLISHED articles, *INTRONS

Abstract

With the ever‐increasing number of publicly available eukaryotic genome assemblies and user‐friendly bioinformatics tools, there are increasing opportunities for researchers to use genomic resources in their research. While there are multiple dimensions to genome quality, it is often reduced to a single score that may not be correlated with other metrics, or appropriate for all applications of an assembly. To assess whether the commonly reported N50 value could reliably predict a separate dimension of genome quality, gene space completeness, we performed a meta‐analysis of 611 published articles on eukaryotic genomes that used BUSCO scores, in addition to the typical N50 score. We found that although assemblies with relatively high contig and scaffold N50 values consistently had high BUSCO scores, a high BUSCO score could also be obtained from assemblies with a low N50. This reinforces that despite its ubiquity, N50 is not a perfect proxy for all measures of genome accuracy. Our data also suggests that variations in BUSCO scores among assemblies with poor N50 scores may be related to the number of introns in conserved eukaryotic genes. We stress the importance of screening and evaluating assembly quality based on the appropriate tools and urge increased reporting of additional genome assessment metrics in addition to N50. We also discuss the potential limitations of BUSCO and suggest improvements for assessing gene space within genome assemblies. [ABSTRACT FROM AUTHOR]

Published

2021

16. The community-curated Pristionchus pacificus genome facilitates automated gene annotation improvement in related nematodes.

Author

Rödelsperger, Christian

Subjects

*GENES, *GENOMICS, *GENOMES, *NEMATODES, *CAENORHABDITIS elegans, *ANNOTATIONS

Abstract

Background: The nematode Pristionchus pacificus is an established model organism for comparative studies with Caenorhabditis elegans. Over the past years, it developed into an independent animal model organism for elucidating the genetic basis of phenotypic plasticity. Community-based curations were employed recently to improve the quality of gene annotations of P. pacificus and to more easily facilitate reverse genetic studies using candidate genes from C. elegans. Results: Here, I demonstrate that the reannotation of phylogenomic data from nine related nematode species using the community-curated P. pacificus gene set as homology data substantially improves the quality of gene annotations. Benchmarking of universal single copy orthologs (BUSCO) estimates a median completeness of 84% which corresponds to a 9% increase over previous annotations. Nevertheless, the ability to infer gene models based on homology already drops beyond the genus level reflecting the rapid evolution of nematode lineages. This also indicates that the highly curated C. elegans genome is not optimally suited for annotating non-Caenorhabditis genomes based on homology. Furthermore, comparative genomic analysis of apparently missing BUSCO genes indicates a failure of ortholog detection by the BUSCO pipeline due to the insufficient sample size and phylogenetic breadth of the underlying OrthoDB data set. As a consequence, the quality of multiple divergent nematode genomes might be underestimated. Conclusions: This study highlights the need for optimizing gene annotation protocols and it demonstrates the benefit of a high quality genome for phylogenomic data of related species. [ABSTRACT FROM AUTHOR]

Published

2021

17. A phylogenomic study of Steganinae fruit flies (Diptera: Drosophilidae): strong gene tree heterogeneity and evidence for monophyly.

Author

Dias, Guilherme Rezende, Dupim, Eduardo Guimarães, Vanderlinde, Thyago, Mello, Beatriz, and Carvalho, Antonio Bernardo

Subjects

*FRUIT flies, *MOLECULAR phylogeny, *DROSOPHILIDAE, *DIPTERA, *BRANCHING processes, *GENE flow

Abstract

Background: The Drosophilidae family is traditionally divided into two subfamilies: Drosophilinae and Steganinae. This division is based on morphological characters, and the two subfamilies have been treated as monophyletic in most of the literature, but some molecular phylogenies have suggested Steganinae to be paraphyletic. To test the paraphyletic-Steganinae hypothesis, here, we used genomic sequences of eight Drosophilidae (three Steganinae and five Drosophilinae) and two Ephydridae (outgroup) species and inferred the phylogeny for the group based on a dataset of 1,028 orthologous genes present in all species (> 1,000,000 bp). This dataset includes three genera that broke the monophyly of the subfamilies in previous works. To investigate possible biases introduced by small sample sizes and automatic gene annotation, we used the same methods to infer species trees from a set of 10 manually annotated genes that are commonly used in phylogenetics. Results: Most of the 1,028 gene trees depicted Steganinae as paraphyletic with distinct topologies, but the most common topology depicted it as monophyletic (43.7% of the gene trees). Despite the high levels of gene tree heterogeneity observed, species tree inference in ASTRAL, in PhyloNet, and with the concatenation approach strongly supported the monophyly of both subfamilies for the 1,028-gene dataset. However, when using the concatenation approach to infer a species tree from the smaller set of 10 genes, we recovered Steganinae as a paraphyletic group. The pattern of gene tree heterogeneity was asymmetrical and thus could not be explained solely by incomplete lineage sorting (ILS). Conclusions: Steganinae was clearly a monophyletic group in the dataset that we analyzed. In addition to ILS, gene tree discordance was possibly the result of introgression, suggesting complex branching processes during the early evolution of Drosophilidae with short speciation intervals and gene flow. Our study highlights the importance of genomic data in elucidating contentious phylogenetic relationships and suggests that phylogenetic inference for drosophilids based on small molecular datasets should be performed cautiously. Finally, we suggest an approach for the correction and cleaning of BUSCO-derived genomic datasets that will be useful to other researchers planning to use this tool for phylogenomic studies. [ABSTRACT FROM AUTHOR]

Published

2020

18. De novo transcriptome assembly, annotation and comparison of four ecological and evolutionary model salmonid fish species.

Author

Carruthers, Madeleine, Yurchenko, Andrey A., Augley, Julian J., Adams, Colin E., Herzyk, Pawel, and Elmer, Kathryn R.

Subjects

*SALMONIDAE, *FISH evolution, *ATLANTIC salmon, *BROWN trout, *ARCTIC char, *FISH genetics

Abstract

Background: Salmonid fishes exhibit high levels of phenotypic and ecological variation and are thus ideal model systems for studying evolutionary processes of adaptive divergence and speciation. Furthermore, salmonids are of major interest in fisheries, aquaculture, and conservation research. Improving understanding of the genetic mechanisms underlying traits in these species would significantly progress research in these fields. Here we generate high quality de novo transcriptomes for four salmonid species: Atlantic salmon (Salmo salar), brown trout (Salmo trutta), Arctic charr (Salvelinus alpinus), and European whitefish (Coregonus lavaretus). All species except Atlantic salmon have no reference genome publicly available and few if any genomic studies to date. Results: We used paired-end RNA-seq on Illumina to generate high coverage sequencing of multiple individuals, yielding between 180 and 210 M reads per species. After initial assembly, strict filtering was used to remove duplicated, redundant, and low confidence transcripts. The final assemblies consisted of 36,505 protein-coding transcripts for Atlantic salmon, 35,736 for brown trout, 33,126 for Arctic charr, and 33,697 for European whitefish and are made publicly available. Assembly completeness was assessed using three approaches, all of which supported high quality of the assemblies: 1) ~78% of Actinopterygian single-copy orthologs were successfully captured in our assemblies, 2) orthogroup inference identified high overlap in the protein sequences present across all four species (40% shared across all four and 84% shared by at least two), and 3) comparison with the published Atlantic salmon genome suggests that our assemblies represent well covered (~98%) protein-coding transcriptomes. Thorough comparison of the generated assemblies found that 84-90% of transcripts in each assembly were orthologous with at least one of the other three species. We also identified 34-37% of transcripts in each assembly as paralogs. We further compare completeness and annotation statistics of our new assemblies to available related species. Conclusion: New, high-confidence protein-coding transcriptomes were generated for four ecologically and economically important species of salmonids. This offers a high quality pipeline for such complex genomes, represents a valuable contribution to the existing genomic resources for these species and provides robust tools for future investigation of gene expression and sequence evolution in these and other salmonid species. [ABSTRACT FROM AUTHOR]

Published

2018

19. Lepidopteran Synteny Units reveal deep chromosomal conservation in butterflies and moths.

Author

Traut W, Sahara K, and Ffrench-Constant RH

Subjects

Animals, Synteny, Chromosomes, Genome, Evolution, Molecular, Butterflies genetics, Moths genetics

Abstract

DNA is compacted into individual particles or chromosomes that form the basic units of inheritance. However, different animals and plants have widely different numbers of chromosomes. This means that we cannot readily tell which chromosomes are related to which. Here, we describe a simple technique that looks at the similarity of genes on each chromosome and thus gives us a true picture of their homology or similarity through evolutionary time. We use this new system to look at the chromosomes of butterflies and moths or Lepidoptera. We term the associated synteny units, Lepidopteran Synteny Units (LSUs). Using a sample of butterfly and moth genomes from across evolutionary time, we show that LSUs form a simple and reliable method of tracing chromosomal homology back through time. Surprisingly, this technique reveals that butterfly and moth chromosomes show conserved blocks dating back to their sister group the Trichoptera. As Lepidoptera have holocentric chromosomes, it will be interesting to see if similar levels of synteny are shown in groups of animals with monocentric chromosomes. The ability to define homology via LSU analysis makes it considerably easier to approach many questions in chromosomal evolution., Competing Interests: Conflicts of interest statement The author(s) declare no conflict of interest., (© The Author(s) 2023. Published by Oxford University Press on behalf of The Genetics Society of America.)

Published

2023

20. De Novo assembly and annotation of the freshwater crayfish Astacus astacus transcriptome.

Author

Theissinger, Kathrin, Falckenhayn, Cassandra, Blande, Daniel, Toljamo, Anna, Gutekunst, Julian, Makkonen, Jenny, Jussila, Japo, Lyko, Frank, Schrimpf, Anne, Schulz, Ralf, and Kokko, Harri

Abstract

We generated RNA-seq data to assemble the transcriptome of the noble crayfish ( Astacus astacus ) from four combined tissues (abdominal muscle, hepatopancreas, ovaries, green glands). A total of 194 million read pairs with a length of 100 bp were generated. The transcriptome was assembled de novo using Trinity software, producing 158,649 non-redundant transcripts. Lowly expressed transcripts were filtered out leaving 45,415 transcripts of which 14,559 were found to contain open reading frames with predicted gene function. The Transrate software revealed that 91% of the total reads were realigned to the assembly. Furthermore, BUSCO analysis indicated that our assembly is 64% complete. A total of 13,770 transcripts were assigned at least one GO term. This first de novo transcriptome assembly is an important foundation for future genomic research on the noble crayfish and adds to the general knowledge and further characterization of transcriptomes of non-model organisms. [ABSTRACT FROM AUTHOR]

Published

2016

21. Chromosome-level Genome Assembly and Sex-specific Differential Transcriptome of the White-backed Planthopper, Sogatella furcifera .

Author

Ye YX, Li DT, Zhang SY, Shen ZC, and Zhang CX

Abstract

Background: The white-backed planthopper (WBPH), Sogatella furcifera , causes great damage to many crops (mainly rice) by direct feeding or transmitting plant viruses. The previous genome assembly was generated by second-generation sequencing technologies, with a contig N50 of only 51.5 kb, and contained a lot of heterozygous sequences., Methods: We utilized third-generation sequencing technologies and Hi-C data to generate a high-quality chromosome-level assembly. We also provide a large amount of transcriptome data for full-length transcriptome analysis and gender differential expression analysis., Results: The final assembly comprised 56.38 Mb, with a contig N50 of 2.20 Mb and a scaffold N50 of 45.25 Mb. Fourteen autosomes and one X chromosome were identified. More than 99.5% of the assembled bases located on the 15 chromosomes. 95.9% of the complete BUSCO Hemiptera genes were detected in the final assembly and 16,880 genes were annotated. 722 genes were relatively highly expressed in males, while 60 in the females., Conclusion: The integrated genome, definite sex chromosomes, comprehensive transcriptome profiles, high efficiency of RNA interference and short life cycle substantially made WBPH an efficient research object for functional genomics., Competing Interests: The authors declare no conflict of interest, financial or otherwise., (© 2022 Bentham Science Publishers.)

Published

2023

22. Whole-Genome Phylogenetic Reconstruction as a Powerful Tool to Reveal Homoplasy and Ancient Rapid Radiation in Waterflea Evolution

Author

Kay Van Damme, Dieter Ebert, Peter D. Fields, Luca Cornetti, Biosciences, and Tvärminne Zoological Station

Subjects

MECHANISM, 0106 biological sciences, Genetic Speciation, DAPHNIA, BRANCHIOPODA CRUSTACEA, CLADOCERA CRUSTACEA, 010603 evolutionary biology, 01 natural sciences, CLASSIFICATION, Coalescent theory, Evolution, Molecular, 03 medical and health sciences, Phylogenetics, Phylogenomics, Genetics, 14. Life underwater, BUSCO, Clade, Molecular clock, ARTHROPOD TREE, Ecology, Evolution, Behavior and Systematics, Ecosystem, Phylogeny, 030304 developmental biology, 0303 health sciences, Genome, biology, Phylogenetic tree, Fossils, biology.organism_classification, Biological Evolution, ADAPTIVE RADIATION, Cladogenesis, Evolutionary biology, 1181 Ecology, evolutionary biology, CHYDORIDAE CRUSTACEA, Onychopoda, FUNCTIONAL-MORPHOLOGY

Abstract

Although phylogeny estimation is notoriously difficult in radiations that occurred several hundred million years ago, phylogenomic approaches offer new ways to examine relationships among ancient lineages and evaluate hypotheses that are key to evolutionary biology. Here, we reconstruct the deep-rooted relationships of one of the oldest living arthropod clades, the branchiopod crustaceans, using a kaleidoscopic approach. We use concatenation and coalescent tree-building methods to analyze a large multigene data set at the nucleotide and amino acid level and examine gene tree versus species tree discordance. We unequivocally resolve long-debated relationships among extant orders of the Cladocera, the waterfleas, an ecologically relevant zooplankton group in global aquatic and marine ecosystems that is famous for its model systems in ecology and evolution. To build the data set, we assembled eight de novo genomes of key taxa including representatives of all extant cladoceran orders and suborders. Our phylogenetic analysis focused on a BUSCO-based set of 823 conserved single-copy orthologs shared among 23 representative taxa spanning all living branchiopod orders, including 11 cladoceran families. Our analysis supports the monophyly of the Cladocera and reveals remarkable homoplasy in their body plans. We found large phylogenetic distances between lineages with similar ecological specializations, indicating independent evolution in major body plans, such as in the pelagic predatory orders Haplopoda and Onychopoda (the “Gymnomera”). In addition, we assessed rapid cladogenesis by estimating relative timings of divergence in major lineages using reliable fossil-calibrated priors on eight nodes in the branchiopod tree, suggesting a Paleozoic origin around 325 Ma for the cladoceran ancestor and an ancient rapid radiation around 252 Ma at the Perm/Triassic boundary. These findings raise new questions about the roles of homoplasy and rapid radiation in the diversification of the cladocerans and help examine trait evolution from a genomic perspective in a functionally well understood, ancient arthropod group. [Cladocera; Daphnia; evolution; homoplasy; molecular clock; phylogenomics; systematics; waterfleas.]

Published

2020

23. De novo male gonad transcriptome draft for the marine mussel Perumytilus purpuratus with a focus on its reproductive-related proteins

Author

Carolina Briones, Montse Pérez, Ricardo Guiñez, Daniela Espinoza-Rojas, José J. Nuñez, and Cristian Molina-Quiroz

Subjects

0106 biological sciences, Short Research Paper, Functional genes, Biology, 010603 evolutionary biology, 01 natural sciences, Transcriptome, 03 medical and health sciences, Molecular level, 14. Life underwater, BUSCO, Mollusca, 030304 developmental biology, 0303 health sciences, urogenital system, Bivalve, Perumytilus purpuratus, Mussel, Male gonad, biology.organism_classification, Sperm, Gamete-recognition proteins, Gene Ontology, Evolutionary biology

Abstract

Perumytilus purpuratus is a marine mussel considered a bioengineer species with a broad distribution in the Pacific and Atlantic coast of South America. Studies have shown two geographically and genetically differentiated subpopulations at molecular level and in sperm morphological traits. To open avenues for molecular research on P. purpuratus, a global de novo transcriptome from gonadal tissue of mature males was sequenced using the Illumina platform. From a total of 126.38 million reads, 37,765 transcripts were successfully annotated. BUSCO analysis determined a level of 89% completeness for the assembled transcriptome. The functional gene ontology (GO) annotation indicated that, in terms of abundance, the transcripts related with molecular function were the most represented, followed by those related with biological process and cellular components. Additionally, a subset of GO annotations generated using the "sperm" term resulted in a total of 1,294 sequences where the biological process category was the more represented, with transcripts strongly associated to sperm-processes required for fertilization, and with processes where the sperm-egg interaction could be implicated. Our work will contribute to the evolutionary understanding of the molecular mechanisms related to tissue-specific functions. This work reports the first male gonad transcriptome for the mussel P. purpuratus, generating a useful transcriptomic resource for this species and other closely related mytilids.

Published

2018

24. A haploid diamondback moth (Plutella xylostella L.) genome assembly resolves 31 chromosomes and identifies a diamide resistance mutation.

Author

Ward, C.M., Perry, K.D., Baker, G., Powis, K., Heckel, D.G., and Baxter, S.W.

Subjects

*DIAMONDBACK moth, *CHROMOSOMES, *GENOMES, *RYANODINE receptors, *PUPAE, *CHLORANTRANILIPROLE, *HAPLOIDY, *RECESSIVE genes

Abstract

The diamondback moth, Plutella xylostella (L.), is a highly mobile brassica crop pest with worldwide distribution and can rapidly evolve resistance to insecticides, including group 28 diamides. Reference genomes assembled using Illumina sequencing technology have provided valuable resources to advance our knowledge regarding the biology, origin and movement of diamondback moth, and more recently with its sister species, Plutella australiana. Here we apply a trio binning approach to sequence and annotate a chromosome level reference genome of P. xylostella using PacBio Sequel and Dovetail Hi-C sequencing technology and identify a point mutation that causes resistance to commercial diamides. A P. xylostella population collected from brassica crops in the Lockyer Valley, Australia (LV-R), was reselected for chlorantraniliprole resistance then a single male was crossed to a P. australiana female and a hybrid pupa sequenced. A chromosome level 328 Mb P. xylostella genome was assembled with 98.1% assigned to 30 autosomes and the Z chromosome. The genome was highly complete with 98.4% of BUSCO Insecta genes identified and RNAseq informed protein prediction annotated 19,002 coding genes. The LV-R strain survived recommended field application doses of chlorantraniliprole, flubendiamide and cyclaniliprole. Some hybrids also survived these doses, indicating significant departure from recessivity, which has not been previously documented for diamides. Diamide chemicals modulate insect Ryanodine Receptors (RyR), disrupting calcium homeostasis, and we identified an amino acid substitution (I4790K) recently reported to cause diamide resistance in a strain from Japan. This chromosome level assembly provides a new resource for insect comparative genomics and highlights the emergence of diamide resistance in Australia. Resistance management plans need to account for the fact that resistance is not completely recessive. [Display omitted] • Chromosome level assembly of a diamide resistant diamondback moth genome. • A trio binning approach resolved a complete haploid genome. • Genome annotation predicts 19 thousand genes, including the diamide receptor, RyR. • RyR diamide resistance mutation I4790K identified in Australia. • Diamide resistance is incompletely recessive. [ABSTRACT FROM AUTHOR]

Published

2021

25. Trimming and Validation of Illumina Short Reads Using Trimmomatic, Trinity Assembly, and Assessment of RNA-Seq Data.

Author

Sewe SO, Silva G, Sicat P, Seal SE, and Visendi P

Subjects

Quality Control, RNA-Seq, Exome Sequencing, Computational Biology, High-Throughput Nucleotide Sequencing

Abstract

Next-generation sequencing (NGS) technologies can generate billions of reads in a single sequencing run. However, with such high-throughput comes quality issues which have to be addressed before undertaking downstream analysis. Quality control on short reads is usually performed at default settings due to a lack of in-depth understanding of a particular software's parameters and their effect if changed on the output. Here we demonstrate how to optimize read trimming using Trimmomatic. We highlight the benefits of trimming by comparing the quality of transcripts assembled using trimmed and untrimmed reads., (© 2022. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

26. Iso-seq analysis and functional annotation of the Santa Fe cave crayfish (Procambarus erythrops) transcriptome.

Author

Carneiro, Celine M., Noble, Jerald D., Pietras, Adele, Moler, Paul, and Austin, James D.

Abstract

The genus Procambarus represents a diverse genus of freshwater crayfish that includes epigean species, stygobitic species, and at least one parthenogenic species. Despite its evolutionary, ecological, and economic importance, most genomic and transcriptomic resources for this genus are limited to a couple of model species. We sequenced the transcriptome of a non-model species, P. erythrops , a geographically restricted stygobitic species from Florida. RNA isolated from gill, muscle and eye tissue was pooled to create a de novo transcriptome assembly using Single Molecule Real-Time sequencing (PacBio), resulting in 19,442 full-length isoforms. The assembly has been deposited in the NCBI (BioProject PRJNA657230). These data will make an important contribution to the comparative study of transcriptome evolution in crayfish and crustaceans. [ABSTRACT FROM AUTHOR]

Published

2021

27. De novo transcriptome assembly, annotation and comparison of four ecological and evolutionary model salmonid fish species

Author

Julian Augley, Pawel Herzyk, Colin E. Adams, Madeleine Carruthers, Kathryn R. Elmer, and Andrey A. Yurchenko

Subjects

0301 basic medicine, lcsh:QH426-470, lcsh:Biotechnology, Annotation, De novo transcriptome assembly, RNA-Seq, OrthoFinder, Genome, 03 medical and health sciences, Brown trout, food, Coregonus lavaretus, Aquaculture, lcsh:TP248.13-248.65, Genetics, 14. Life underwater, Salmo, BUSCO, BLAST, Salvelinus, food.dish, biology, Ecology, business.industry, Salmonids, biology.organism_classification, lcsh:Genetics, 030104 developmental biology, Gene Ontology (GO) analysis, RNA-seq, business, Transcriptome, Biotechnology, Research Article

Abstract

Background Salmonid fishes exhibit high levels of phenotypic and ecological variation and are thus ideal model systems for studying evolutionary processes of adaptive divergence and speciation. Furthermore, salmonids are of major interest in fisheries, aquaculture, and conservation research. Improving understanding of the genetic mechanisms underlying traits in these species would significantly progress research in these fields. Here we generate high quality de novo transcriptomes for four salmonid species: Atlantic salmon (Salmo salar), brown trout (Salmo trutta), Arctic charr (Salvelinus alpinus), and European whitefish (Coregonus lavaretus). All species except Atlantic salmon have no reference genome publicly available and few if any genomic studies to date. Results We used paired-end RNA-seq on Illumina to generate high coverage sequencing of multiple individuals, yielding between 180 and 210 M reads per species. After initial assembly, strict filtering was used to remove duplicated, redundant, and low confidence transcripts. The final assemblies consisted of 36,505 protein-coding transcripts for Atlantic salmon, 35,736 for brown trout, 33,126 for Arctic charr, and 33,697 for European whitefish and are made publicly available. Assembly completeness was assessed using three approaches, all of which supported high quality of the assemblies: 1) ~78% of Actinopterygian single-copy orthologs were successfully captured in our assemblies, 2) orthogroup inference identified high overlap in the protein sequences present across all four species (40% shared across all four and 84% shared by at least two), and 3) comparison with the published Atlantic salmon genome suggests that our assemblies represent well covered (~98%) protein-coding transcriptomes. Thorough comparison of the generated assemblies found that 84-90% of transcripts in each assembly were orthologous with at least one of the other three species. We also identified 34-37% of transcripts in each assembly as paralogs. We further compare completeness and annotation statistics of our new assemblies to available related species. Conclusion New, high-confidence protein-coding transcriptomes were generated for four ecologically and economically important species of salmonids. This offers a high quality pipeline for such complex genomes, represents a valuable contribution to the existing genomic resources for these species and provides robust tools for future investigation of gene expression and sequence evolution in these and other salmonid species. Electronic supplementary material The online version of this article (10.1186/s12864-017-4379-x) contains supplementary material, which is available to authorized users.

Published

2018

28. From Genotype to Phenotype: Assembly and Annotation of Two Fungal Genomes

Author

Barry, Brianna K.

Subjects

MaSuRCA, genome annotation, Ascomycota, genome assembly, fungi, DNA sequencing, BUSCO, Velvet, endophyte, SOAPdenovo2, symbiosis, QUAST

Abstract

All organisms in an environment interact with that environment, including with both other organisms as well as the abiotic surroundings. Symbiosis is defined as a close, long-term association between organisms of different species that commonly results in novel structures and/or metabolism. Ascomycetes, also known as sac fungi, are the largest phylum of Fungi with over 64,000 currently known species. Within this diverse group, beneficial and detrimental associations with specific plant hosts are observed. I selected an antagonist, Cochliobolus kusanoi, and a mutualist, Penicillium pinophilum, for our analyses. These endophytes were isolated from Panicum virgatum. I conducted paired-end sequencing with an Illumina HiSeq 4000 system to investigate the genetic underpinnings of such complex relationships. Genome assembly was completed with several programs for performance comparison, namely Velvet, MaSuRCA, and SOAPdenovo2. The de novo assemblies were assessed for completeness with BUSCO and QUAST. The final phase of the project is annotating the two genomes by following the standard DOE-JGI Fungal Genome Annotation Pipeline recommendations and incorporating our previously collected transcriptome data for these fungi to improve the annotation. Genes related to the fungal phenotypes will be predicted and functionally annotated, and comparative analysis will enable the visualization of specific gene structures and domain compositions. I successfully created a unique and accurate workflow for future fungal genomics research beginning with DNA extraction through genome annotation.

Published

2017

29. An evaluation of methodology to determine algal genome completeness.

Author

Hanschen, Erik R., Hovde, Blake T., and Starkenburg, Shawn R.

Abstract

The advancement of sequencing technologies has resulted in a rapid expansion of genome sequencing. One challenge in processing and analyzing this abundance of genomics data is development and application of tools to accurately assess the quality of novel genomes. The quality of a given genome assembly is commonly assessed using the presence of conserved orthologs. However, the applicability and accuracy of identifying conserved orthologs applied to algal genome assemblies, which are uniquely diverse, is unclear. Here, we analyze the utility of a genome content assessment tool, Benchmarking Universal Single-Copy Orthologs (BUSCO), to evaluate algal genome assembly completeness. We find that Chlorophyta and Stramenopile BUSCO databases are effective tools to analyze genome completeness of these lineages. For other lineages, the Eukaryota database should be utilized until additional lineage-specific databases are developed. Based on these results, suggested best practices for current usage and necessary future improvements are provided. • Tools to assess the quality and completeness of genome assemblies are not broadly applicable to algae. • Additional lineage-specific ortholog databases are needed to effectively determine algal genome assembly completeness. • Assessing quality requires careful selection of database, parameters, methods, and most important, context for comparison. [ABSTRACT FROM AUTHOR]

Published

2020

30. A draft genome sequence of an invasive mosquito: an Italian Aedes albopictus

Author

Roberta Spaccapelo, Francesca Scolari, Philippos Aris Papathanos, Ludvik M. Gomulski, Grazia Savini, Valerio Napolioni, Fabrizio Lombardo, Pantelis Topalis, Daniel Lawson, Giuliano Gasperi, Maurizio Calvitti, José M. C. Ribeiro, Anna R. Malacrida, Christos Louis, Giuseppe Saccone, Vicky Dritsou, Elena Deligianni, Bruno Arcà, Daniel S.T. Hughes, Malcolm Hinsley, Nikolai Windbichler, Riccardo Moretti, G. Aprea, Francesca Crucianelli, Matteo Picciolini, Ann Hall, Alekos Simoni, Mosè Manni, Guido Favia, Andrea Crisanti, Marco Salvemini, Dritsou, Vicky, Topalis, Panteli, Windbichler, Nikolai, Simoni, Aleko, Hall, Ann, Lawson, Daniel, Hinsley, Malcolm, Hughes, Daniel, Napolioni, Valerio, Crucianelli, Francesca, Deligianni, Elena, Gasperi, Giuliano, Gomulski, Ludvik M, Savini, Grazia, Manni, Mosè, Scolari, Francesca, Malacrida, Anna R, Arcà, Bruno, Ribeiro, José M, Lombardo, Fabrizio, Saccone, Giuseppe, Salvemini, Marco, Moretti, Riccardo, Aprea, Giuseppe, Calvitti, Maurizio, Picciolini, Matteo, Papathanos, Philippos Ari, Spaccapelo, Roberta, Favia, Guido, Crisanti, Andrea, Louis, Christos, Aprea, G., Moretti, R., and Calvitti, M.

Subjects

Male, Odorant binding, Genome, Insect, Sequence assembly, Repetitive DNA, Biology, Microbiology, Genome, Transposable element, DNA sequencing, busco, chikungunya, dengue fever, disease vector, invasive species, ngs, repetitive dna, transposable elements, wgs, parasitology, infectious diseases, public health, environmental and occupational health, microbiology, Open Reading Frames, Aedes, BUSCO, Invasive species, Disease vector, Dengue fever, Chikungunya, Transposable elements, WGS, NGS, Animals, Gene, Whole genome sequencing, Genetics, BUSCO, Chikungunya, Dengue fever, Disease vector, Invasive species, NGS, Repetitive DNA, Transposable elements, WGS, environmental and occupational health, public health, fungi, Invasive specie, Public Health, Environmental and Occupational Health, High-Throughput Nucleotide Sequencing, Molecular Sequence Annotation, General Medicine, Original Articles, Sequence Analysis, DNA, biology.organism_classification, Infectious Diseases, Italy, Sialome, Parasitology, Female

Abstract

The draft genome sequence of Italian specimens of the Asian tiger mosquito Aedes (Stegomyia) albopictus (Diptera: Culicidae) was determined using a standard NGS (next generation sequencing) approach. The size of the assembled genome is comparable to that of Aedes aegypti; the two mosquitoes are also similar as far as the high content of repetitive DNA is concerned, most of which is made up of transposable elements. Although, based on BUSCO (Benchmarking Universal Single-Copy Orthologues) analysis, the genome assembly reported here contains more than 99% of protein-coding genes, several of those are expected to be represented in the assembly in a fragmented state. We also present here the annotation of several families of genes (tRNA genes, miRNA genes, the sialome, genes involved in chromatin condensation, sex determination genes, odorant binding proteins and odorant receptors). These analyses confirm that the assembly can be used for the study of the biology of this invasive vector of disease. © W. S. Maney & Son Ltd 2015.

Published

2015

31. BUSCO: Assessing Genome Assembly and Annotation Completeness.

Author

Seppey M, Manni M, and Zdobnov EM

Subjects

Databases, Genetic, Gene Dosage, Genome, Internet, Markov Chains, Transcriptome, Genomics methods, Molecular Sequence Annotation methods, Software

Abstract

Genomics drives the current progress in molecular biology, generating unprecedented volumes of data. The scientific value of these sequences depends on the ability to evaluate their completeness using a biologically meaningful approach. Here, we describe the use of the BUSCO tool suite to assess the completeness of genomes, gene sets, and transcriptomes, using their gene content as a complementary method to common technical metrics. The chapter introduces the concept of universal single-copy genes, which underlies the BUSCO methodology, covers the basic requirements to set up the tool, and provides guidelines to properly design the analyses, run the assessments, and interpret and utilize the results.

Published

2019

32. Evaluating Genome Assemblies and Gene Models Using gVolante.

Author

Nishimura O, Hara Y, and Kuraku S

Subjects

Animals, Elephants genetics, Rodentia genetics, User-Computer Interface, Genome, Genomics methods, Models, Genetic, Software

Abstract

In daily practice of de novo genome assembly and gene prediction, it would be a natural urge to evaluate their products. Different programs and parameter settings give rise to variable outputs, which leaves a decision of which output to adopt for downstream analysis for addressing biological questions. Instead of superficial assessment of length-based statistics of output sequences (e.g., N50 scaffold length), completeness assessment by means of scoring the coverage of reference orthologs has been increasingly utilized.We previously launched a web service, gVolante ( https://gvolante.riken.jp /), to provide a user-friendly interface and a uniform environment for completeness assessment with the pipelines CEGMA and BUSCO. Completeness assessments performed on gVolante report scores based on not just the coverage of reference genes but also on sequence lengths, allowing quality control in multiple aspects. This chapter focuses on the procedure for such assessment and provides technical tips for higher accuracy.

Published

2019

33. De novo male gonad transcriptome draft for the marine mussel Perumytilus purpuratus with a focus on its reproductive-related proteins.

Author

Briones C, Nuñez JJ, Pérez M, Espinoza-Rojas D, Molina-Quiroz C, and Guiñez R

Abstract

Perumytilus purpuratus is a marine mussel considered a bioengineer species with a broad distribution in the Pacific and Atlantic coast of South America. Studies have shown two geographically and genetically differentiated subpopulations at molecular level and in sperm morphological traits. To open avenues for molecular research on P. purpuratus , a global de novo transcriptome from gonadal tissue of mature males was sequenced using the Illumina platform. From a total of 126.38 million reads, 37,765 transcripts were successfully annotated. BUSCO analysis determined a level of 89% completeness for the assembled transcriptome. The functional gene ontology (GO) annotation indicated that, in terms of abundance, the transcripts related with molecular function were the most represented, followed by those related with biological process and cellular components. Additionally, a subset of GO annotations generated using the "sperm" term resulted in a total of 1,294 sequences where the biological process category was the more represented, with transcripts strongly associated to sperm-processes required for fertilization, and with processes where the sperm-egg interaction could be implicated. Our work will contribute to the evolutionary understanding of the molecular mechanisms related to tissue-specific functions. This work reports the first male gonad transcriptome for the mussel P. purpuratus , generating a useful transcriptomic resource for this species and other closely related mytilids., Competing Interests: Competing Interests: The authors have declared that no competing interest exists.

Published

2018