LeafGo: Leaf to Genome, a quick workflow to produce high-quality de novo plant genomes using long-read sequencing technology

Patrick Driguez; Salim Bougouffa; Karen Carty; Alexander Putra; Kamel Jabbari; Muppala Reddy; Richard Soppe; Ming Sin Cheung; Yoshinori Fukasawa; Luca Ermini

doi:10.1186/s13059-021-02475-z

LeafGo: Leaf to Genome, a quick workflow to produce high-quality de novo plant genomes using long-read sequencing technology

Patrick Driguez, Salim Bougouffa, Karen Carty, Alexander Putra, Kamel Jabbari, Muppala Reddy, Richard Soppe, Ming Sin Cheung, Yoshinori Fukasawa, Luca Ermini^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Research › peer-review

8 Citations (Scopus)

Abstract

Currently, different sequencing platforms are used to generate plant genomes and no workflow has been properly developed to optimize time, cost, and assembly quality. We present LeafGo, a complete de novo plant genome workflow, that starts from tissue and produces genomes with modest laboratory and bioinformatic resources in approximately 7 days and using one long-read sequencing technology. LeafGo is optimized with ten different plant species, three of which are used to generate high-quality chromosome-level assemblies without any scaffolding technologies. Finally, we report the diploid genomes of Eucalyptus rudis and E. camaldulensis and the allotetraploid genome of Arachis hypogaea.

Original language	English
Article number	256
Journal	Genome Biology
Volume	22
Issue number	1
DOIs	https://doi.org/10.1186/s13059-021-02475-z
Publication status	Published - Dec 2021
Externally published	Yes

Keywords

Arachis
Chromosome-level draft genome
Eucalyptus
Genomic standardized workflow
High molecular weight DNA extraction
Long-read sequencing
Peanut

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10.1186/s13059-021-02475-z

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title = "LeafGo: Leaf to Genome, a quick workflow to produce high-quality de novo plant genomes using long-read sequencing technology",

abstract = "Currently, different sequencing platforms are used to generate plant genomes and no workflow has been properly developed to optimize time, cost, and assembly quality. We present LeafGo, a complete de novo plant genome workflow, that starts from tissue and produces genomes with modest laboratory and bioinformatic resources in approximately 7 days and using one long-read sequencing technology. LeafGo is optimized with ten different plant species, three of which are used to generate high-quality chromosome-level assemblies without any scaffolding technologies. Finally, we report the diploid genomes of Eucalyptus rudis and E. camaldulensis and the allotetraploid genome of Arachis hypogaea.",

keywords = "Arachis, Chromosome-level draft genome, Eucalyptus, Genomic standardized workflow, High molecular weight DNA extraction, Long-read sequencing, Peanut",

author = "Patrick Driguez and Salim Bougouffa and Karen Carty and Alexander Putra and Kamel Jabbari and Muppala Reddy and Richard Soppe and Cheung, {Ming Sin} and Yoshinori Fukasawa and Luca Ermini",

note = "Funding Information: We thank Dr. Boubacar Kountche and Prof. Salim AlBabili for insightful discussions on the wet-lab work and their constructive support for BCL, and the KAUST Supercomputing Core Lab for providing support for the computing resources. We thank Dr. Dean Nicolle for the phenotypic identification of the two Eucalyptus species and the three anonymous reviewers for their constructive criticism. We thank the KAUST Core Labs management for supporting this study. In fond memory of our talented colleague Dr. Kamel Jabbari. The review history is available as Additional file 2. Barbara Cheifet was the primary editor of this article and managed its editorial process and peer review in collaboration with the rest of the editorial team. Publisher Copyright: {\textcopyright} 2021, The Author(s).",

year = "2021",

month = dec,

doi = "10.1186/s13059-021-02475-z",

language = "English",

volume = "22",

journal = "Genome Biology",

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AU - Driguez, Patrick

AU - Bougouffa, Salim

AU - Carty, Karen

AU - Putra, Alexander

AU - Jabbari, Kamel

AU - Reddy, Muppala

AU - Soppe, Richard

AU - Cheung, Ming Sin

AU - Fukasawa, Yoshinori

AU - Ermini, Luca

N1 - Funding Information: We thank Dr. Boubacar Kountche and Prof. Salim AlBabili for insightful discussions on the wet-lab work and their constructive support for BCL, and the KAUST Supercomputing Core Lab for providing support for the computing resources. We thank Dr. Dean Nicolle for the phenotypic identification of the two Eucalyptus species and the three anonymous reviewers for their constructive criticism. We thank the KAUST Core Labs management for supporting this study. In fond memory of our talented colleague Dr. Kamel Jabbari. The review history is available as Additional file 2. Barbara Cheifet was the primary editor of this article and managed its editorial process and peer review in collaboration with the rest of the editorial team. Publisher Copyright: © 2021, The Author(s).

PY - 2021/12

Y1 - 2021/12

N2 - Currently, different sequencing platforms are used to generate plant genomes and no workflow has been properly developed to optimize time, cost, and assembly quality. We present LeafGo, a complete de novo plant genome workflow, that starts from tissue and produces genomes with modest laboratory and bioinformatic resources in approximately 7 days and using one long-read sequencing technology. LeafGo is optimized with ten different plant species, three of which are used to generate high-quality chromosome-level assemblies without any scaffolding technologies. Finally, we report the diploid genomes of Eucalyptus rudis and E. camaldulensis and the allotetraploid genome of Arachis hypogaea.

AB - Currently, different sequencing platforms are used to generate plant genomes and no workflow has been properly developed to optimize time, cost, and assembly quality. We present LeafGo, a complete de novo plant genome workflow, that starts from tissue and produces genomes with modest laboratory and bioinformatic resources in approximately 7 days and using one long-read sequencing technology. LeafGo is optimized with ten different plant species, three of which are used to generate high-quality chromosome-level assemblies without any scaffolding technologies. Finally, we report the diploid genomes of Eucalyptus rudis and E. camaldulensis and the allotetraploid genome of Arachis hypogaea.

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LeafGo: Leaf to Genome, a quick workflow to produce high-quality de novo plant genomes using long-read sequencing technology

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Keywords

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