First draft genome assembly of the desert locust, Schistocerca gregaria [version 1; peer review: 2 approved, 1 approved with reservations]
Background: At the time of publication, the most devastating desert locust crisis in decades is affecting East Africa, the Arabian Peninsula and South-West Asia. The situation is extremely alarming in East Africa, where Kenya, Ethiopia and Somalia face an unprecedented threat to food security and li...
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| Published in | F1000 research Vol. 9; p. 775 |
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| Main Authors | , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
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F1000 Research Ltd
2020
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| Abstract | Background: At the time of publication, the most devastating desert locust crisis in decades is affecting East Africa, the Arabian Peninsula and South-West Asia. The situation is extremely alarming in East Africa, where Kenya, Ethiopia and Somalia face an unprecedented threat to food security and livelihoods. Most of the time, however, locusts do not occur in swarms, but live as relatively harmless solitary insects. The phenotypically distinct solitarious and gregarious locust phases differ markedly in many aspects of behaviour, physiology and morphology, making them an excellent model to study how environmental factors shape behaviour and development. A better understanding of the extreme phenotypic plasticity in desert locusts will offer new, more environmentally sustainable ways of fighting devastating swarms.
Methods: High molecular weight DNA derived from two adult males was used for Mate Pair and Paired End Illumina sequencing and PacBio sequencing. A reliable reference genome of
Schistocerca gregaria was assembled using the ABySS pipeline, scaffolding was improved using LINKS.
Results: In total, 1,316 Gb Illumina reads and 112 Gb PacBio reads were produced and assembled. The resulting draft genome consists of 8,817,834,205 bp organised in 955,015 scaffolds with an N50 of 157,705 bp, making the desert locust genome the largest insect genome sequenced and assembled to date. In total, 18,815 protein-encoding genes are predicted in the desert locust genome, of which 13,646 (72.53%) obtained at least one functional assignment based on similarity to known proteins.
Conclusions: The desert locust genome data will contribute greatly to studies of phenotypic plasticity, physiology, neurobiology, molecular ecology, evolutionary genetics and comparative genomics, and will promote the desert locust's use as a model system. The data will also facilitate the development of novel, more sustainable strategies for preventing or combating swarms of these infamous insects. |
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| AbstractList | Background: At the time of publication, the most devastating desert locust crisis in decades is affecting East Africa, the Arabian Peninsula and South-West Asia. The situation is extremely alarming in East Africa, where Kenya, Ethiopia and Somalia face an unprecedented threat to food security and livelihoods. Most of the time, however, locusts do not occur in swarms, but live as relatively harmless solitary insects. The phenotypically distinct solitarious and gregarious locust phases differ markedly in many aspects of behaviour, physiology and morphology, making them an excellent model to study how environmental factors shape behaviour and development. A better understanding of the extreme phenotypic plasticity in desert locusts will offer new, more environmentally sustainable ways of fighting devastating swarms. Methods: High molecular weight DNA derived from two adult males was used for Mate Pair and Paired End Illumina sequencing and PacBio sequencing. A reliable reference genome of Schistocerca gregaria was assembled using the ABySS pipeline, scaffolding was improved using LINKS. Results: In total, 1,316 Gb Illumina reads and 112 Gb PacBio reads were produced and assembled. The resulting draft genome consists of 8,817,834,205 bp organised in 955,015 scaffolds with an N50 of 157,705 bp, making the desert locust genome the largest insect genome sequenced and assembled to date. In total, 18,815 protein-encoding genes are predicted in the desert locust genome, of which 13,646 (72.53%) obtained at least one functional assignment based on similarity to known proteins. Conclusions: The desert locust genome data will contribute greatly to studies of phenotypic plasticity, physiology, neurobiology, molecular ecology, evolutionary genetics and comparative genomics, and will promote the desert locust’s use as a model system. The data will also facilitate the development of novel, more sustainable strategies for preventing or combating swarms of these infamous insects. Background: At the time of publication, the most devastating desert locust crisis in decades is affecting East Africa, the Arabian Peninsula and South-West Asia. The situation is extremely alarming in East Africa, where Kenya, Ethiopia and Somalia face an unprecedented threat to food security and livelihoods. Most of the time, however, locusts do not occur in swarms, but live as relatively harmless solitary insects. The phenotypically distinct solitarious and gregarious locust phases differ markedly in many aspects of behaviour, physiology and morphology, making them an excellent model to study how environmental factors shape behaviour and development. A better understanding of the extreme phenotypic plasticity in desert locusts will offer new, more environmentally sustainable ways of fighting devastating swarms. Methods: High molecular weight DNA derived from two adult males was used for Mate Pair and Paired End Illumina sequencing and PacBio sequencing. A reliable reference genome of Schistocerca gregaria was assembled using the ABySS pipeline, scaffolding was improved using LINKS. Results: In total, 1,316 Gb Illumina reads and 112 Gb PacBio reads were produced and assembled. The resulting draft genome consists of 8,817,834,205 bp organised in 955,015 scaffolds with an N50 of 157,705 bp, making the desert locust genome the largest insect genome sequenced and assembled to date. In total, 18,815 protein-encoding genes are predicted in the desert locust genome, of which 13,646 (72.53%) obtained at least one functional assignment based on similarity to known proteins. Conclusions: The desert locust genome data will contribute greatly to studies of phenotypic plasticity, physiology, neurobiology, molecular ecology, evolutionary genetics and comparative genomics, and will promote the desert locust's use as a model system. The data will also facilitate the development of novel, more sustainable strategies for preventing or combating swarms of these infamous insects. : At the time of publication, the most devastating desert locust crisis in decades is affecting East Africa, the Arabian Peninsula and South-West Asia. The situation is extremely alarming in East Africa, where Kenya, Ethiopia and Somalia face an unprecedented threat to food security and livelihoods. Most of the time, however, locusts do not occur in swarms, but live as relatively harmless solitary insects. The phenotypically distinct solitarious and gregarious locust phases differ markedly in many aspects of behaviour, physiology and morphology, making them an excellent model to study how environmental factors shape behaviour and development. A better understanding of the extreme phenotypic plasticity in desert locusts will offer new, more environmentally sustainable ways of fighting devastating swarms. : High molecular weight DNA derived from two adult males was used for Mate Pair and Paired End Illumina sequencing and PacBio sequencing. A reliable reference genome of was assembled using the ABySS pipeline, scaffolding was improved using LINKS. : In total, 1,316 Gb Illumina reads and 112 Gb PacBio reads were produced and assembled. The resulting draft genome consists of 8,817,834,205 bp organised in 955,015 scaffolds with an N50 of 157,705 bp, making the desert locust genome the largest insect genome sequenced and assembled to date. In total, 18,815 protein-encoding genes are predicted in the desert locust genome, of which 13,646 (72.53%) obtained at least one functional assignment based on similarity to known proteins. : The desert locust genome data will contribute greatly to studies of phenotypic plasticity, physiology, neurobiology, molecular ecology, evolutionary genetics and comparative genomics, and will promote the desert locust's use as a model system. The data will also facilitate the development of novel, more sustainable strategies for preventing or combating swarms of these infamous insects. Background : At the time of publication, the most devastating desert locust crisis in decades is affecting East Africa, the Arabian Peninsula and South-West Asia. The situation is extremely alarming in East Africa, where Kenya, Ethiopia and Somalia face an unprecedented threat to food security and livelihoods. Most of the time, however, locusts do not occur in swarms, but live as relatively harmless solitary insects. The phenotypically distinct solitarious and gregarious locust phases differ markedly in many aspects of behaviour, physiology and morphology, making them an excellent model to study how environmental factors shape behaviour and development. A better understanding of the extreme phenotypic plasticity in desert locusts will offer new, more environmentally sustainable ways of fighting devastating swarms. Methods : High molecular weight DNA derived from two adult males was used for Mate Pair and Paired End Illumina sequencing and PacBio sequencing. A reliable reference genome of Schistocerca gregaria was assembled using the ABySS pipeline, scaffolding was improved using LINKS. Results : In total, 1,316 Gb Illumina reads and 112 Gb PacBio reads were produced and assembled. The resulting draft genome consists of 8,817,834,205 bp organised in 955,015 scaffolds with an N50 of 157,705 bp, making the desert locust genome the largest insect genome sequenced and assembled to date. In total, 18,815 protein-encoding genes are predicted in the desert locust genome, of which 13,646 (72.53%) obtained at least one functional assignment based on similarity to known proteins. Conclusions : The desert locust genome data will contribute greatly to studies of phenotypic plasticity, physiology, neurobiology, molecular ecology, evolutionary genetics and comparative genomics, and will promote the desert locust’s use as a model system. The data will also facilitate the development of novel, more sustainable strategies for preventing or combating swarms of these infamous insects. |
| Author | Sword, Gregory A Behmer, Spencer T Deforce, Dieter Li, Zhen Song, Hojun Ott, Swidbert R Van de Peer, Yves Vanden Broeck, Jozef Verdonck, Rik Matheson, Tom Li, Jia Verlinden, Heleen Sterck, Lieven Yssel, Anna Gansemans, Yannick Holtof, Michiel Van Nieuwerburgh, Filip |
| Author_xml | – sequence: 1 givenname: Heleen orcidid: 0000-0001-6721-3973 surname: Verlinden fullname: Verlinden, Heleen organization: Laboratory of Molecular Developmental Physiology and Signal Transduction, KU Leuven, Leuven, 3000, Belgium – sequence: 2 givenname: Lieven orcidid: 0000-0001-7116-4000 surname: Sterck fullname: Sterck, Lieven organization: Center for Plant Systems Biology, Ghent University - VIB, Ghent, 9052, Belgium – sequence: 3 givenname: Jia surname: Li fullname: Li, Jia organization: Center for Plant Systems Biology, Ghent University - VIB, Ghent, 9052, Belgium – sequence: 4 givenname: Zhen orcidid: 0000-0001-8920-9270 surname: Li fullname: Li, Zhen organization: Center for Plant Systems Biology, Ghent University - VIB, Ghent, 9052, Belgium – sequence: 5 givenname: Anna surname: Yssel fullname: Yssel, Anna organization: Department of Biochemistry, Genetics and Microbiology, University of Pretoria, Pretoria, 0002, South Africa – sequence: 6 givenname: Yannick orcidid: 0000-0001-5018-044X surname: Gansemans fullname: Gansemans, Yannick organization: NXTGNT, Ghent University, Ghent, 9000, Belgium – sequence: 7 givenname: Rik surname: Verdonck fullname: Verdonck, Rik organization: Station d' Ecologie Théorique et Expérimentale, UMR 5321 CNRS et Université Paul Sabatier, Moulis, 09200, France – sequence: 8 givenname: Michiel surname: Holtof fullname: Holtof, Michiel organization: Laboratory of Molecular Developmental Physiology and Signal Transduction, KU Leuven, Leuven, 3000, Belgium – sequence: 9 givenname: Hojun orcidid: 0000-0001-6115-0473 surname: Song fullname: Song, Hojun organization: Department of Entomology, Texas A&M University, College Station, Texas, TX 77843-2475, USA – sequence: 10 givenname: Spencer T surname: Behmer fullname: Behmer, Spencer T organization: Department of Entomology, Texas A&M University, College Station, Texas, TX 77843-2475, USA – sequence: 11 givenname: Gregory A orcidid: 0000-0003-2094-2436 surname: Sword fullname: Sword, Gregory A organization: Department of Entomology, Texas A&M University, College Station, Texas, TX 77843-2475, USA – sequence: 12 givenname: Tom orcidid: 0000-0002-6061-9038 surname: Matheson fullname: Matheson, Tom organization: Department of Neuroscience, Physiology and Behaviour, University of Leicester, Leicester, LE1 7RH, UK – sequence: 13 givenname: Swidbert R surname: Ott fullname: Ott, Swidbert R organization: Department of Neuroscience, Physiology and Behaviour, University of Leicester, Leicester, LE1 7RH, UK – sequence: 14 givenname: Dieter orcidid: 0000-0002-0635-661X surname: Deforce fullname: Deforce, Dieter organization: NXTGNT, Ghent University, Ghent, 9000, Belgium – sequence: 15 givenname: Filip orcidid: 0000-0001-8815-5485 surname: Van Nieuwerburgh fullname: Van Nieuwerburgh, Filip organization: NXTGNT, Ghent University, Ghent, 9000, Belgium – sequence: 16 givenname: Yves surname: Van de Peer fullname: Van de Peer, Yves email: yvpee@psb.vib-ugent.be organization: Department of Biochemistry, Genetics and Microbiology, University of Pretoria, Pretoria, 0002, South Africa – sequence: 17 givenname: Jozef orcidid: 0000-0001-7653-0516 surname: Vanden Broeck fullname: Vanden Broeck, Jozef email: jozef.vandenbroeck@kuleuven.be organization: Laboratory of Molecular Developmental Physiology and Signal Transduction, KU Leuven, Leuven, 3000, Belgium |
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| Keywords | large genome size pest insect swarm Orthoptera locust plague phenotypic plasticity Eco-devo polyphenism |
| Language | English |
| License | http://creativecommons.org/licenses/by/4.0/: This is an open access article distributed under the terms of the Creative Commons Attribution Licence, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Copyright: © 2020 Verlinden H et al. |
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| Title | First draft genome assembly of the desert locust, Schistocerca gregaria [version 1; peer review: 2 approved, 1 approved with reservations] |
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