First draft genome assembly of the Argane tree (Argania spinosa)

Slimane Khayi; Nour Elhouda Azza; Fatima Gaboun; Stacy Pirro; Oussama Badad; M. Gonzalo Claros; David A. Lightfoot; Turgay Unver; Bouchra Chaouni; Redouane Merrouch; Bouchra Rahim; Soumaya Essayeh; Matika Ganoudi; Rabha Abdelwahd; Ghizlane Diria; Meriem Alaoui Mdarhi; Mustapha Labhilili; Driss Iraqi; Jamila Mouhaddab; Hayat Sedrati; Majid Memari; Noureddine Hamamouch; Juan de Dios Alché; Noureddine Boukhatem; Rachid Mrabet; Rachid Dahan; Adelkhaleq Legssyer; Mohamed Khalfaoui; Mohamed Badraoui; Yves Van de Peer; Tatiana Tatusova; Abdelhamid El Mousadik; Rachid Mentag; Hassan Ghazal

doi:10.12688/f1000research.15719.2

First draft genome assembly of the Argane tree (Argania spinosa)

Slimane Khayi
, Nour Elhouda Azza
, Fatima Gaboun
, Stacy Pirro
, Oussama Badad
, M. Gonzalo Claros
, David A. Lightfoot
, Turgay Unver
, Bouchra Chaouni
, Redouane Merrouch
, Bouchra Rahim
, Soumaya Essayeh
, Matika Ganoudi
, Rabha Abdelwahd
, Ghizlane Diria
, Meriem Alaoui Mdarhi
, Mustapha Labhilili
, Driss Iraqi
, Jamila Mouhaddab
, Hayat Sedrati

Majid Memari, Noureddine Hamamouch, Juan de Dios Alché, Noureddine Boukhatem, Rachid Mrabet, Rachid Dahan, Adelkhaleq Legssyer, Mohamed Khalfaoui, Mohamed Badraoui, Yves Van de Peer, Tatiana Tatusova, Abdelhamid El Mousadik, Rachid Mentag, Hassan Ghazal

Biochemistry and Cell Biology

Stony Brook University

National Institute for Agricultural Research
Ibn Zohr University
Mohamed I University
MD
Southern Illinois University
Mohammed V University in Rabat
University of Málaga
Dokuz Eylul University
National Center for Scientific and Technical Research
EEZ-CSIC
Ghent University
Flanders Institute for Biotechnology
University of Pretoria
National Institutes of Health

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

10 Scopus citations

Abstract

Background: The Argane tree ( Argania spinosa L. Skeels) is an endemic tree of mid-western Morocco that plays an important socioeconomic and ecologic role for a dense human population in an arid zone. Several studies confirmed the importance of this species as a food and feed source and as a resource for both pharmaceutical and cosmetic compounds. Unfortunately, the argane tree ecosystem is facing significant threats from environmental changes (global warming, over-population) and over-exploitation. Limited research has been conducted, however, on argane tree genetics and genomics, which hinders its conservation and genetic improvement. Methods: Here, we present a draft genome assembly of A. spinosa. A reliable reference genome of A. spinosa was created using a hybrid de novo assembly approach combining short and long sequencing reads. Results: In total, 144 Gb Illumina HiSeq reads and 7.6 Gb PacBio reads were produced and assembled. The final draft genome comprises 75 327 scaffolds totaling 671 Mb with an N50 of 49 916 kb. The draft assembly is close to the genome size estimated by k-mers distribution and covers 89% of complete and 4.3 % of partial Arabidopsis orthologous groups in BUSCO. Conclusion: The A. spinosa genome will be useful for assessing biodiversity leading to efficient conservation of this endangered endemic tree. Furthermore, the genome may enable genome-assisted cultivar breeding, and provide a better understanding of important metabolic pathways and their underlying genes for both cosmetic and pharmacological.

Original language	English
Article number	1310
Journal	F1000Research
Volume	7
DOIs	https://doi.org/10.12688/f1000research.15719.2
State	Published - 2020

Keywords

Argane
Argania spinosa
Assembly
Endemic
Genome
International Argane Genome Consortium
Morocco

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10.12688/f1000research.15719.2

Cite this

Khayi, S., Azza, N. E., Gaboun, F., Pirro, S., Badad, O., Claros, M. G., Lightfoot, D. A., Unver, T., Chaouni, B., Merrouch, R., Rahim, B., Essayeh, S., Ganoudi, M., Abdelwahd, R., Diria, G., Mdarhi, M. A., Labhilili, M., Iraqi, D., Mouhaddab, J., ... Ghazal, H. (2020). First draft genome assembly of the Argane tree (Argania spinosa). F1000Research, 7, Article 1310. https://doi.org/10.12688/f1000research.15719.2

@article{82de847de7cc4ef6996c9391e322f91e,

title = "First draft genome assembly of the Argane tree (Argania spinosa)",

abstract = "Background: The Argane tree ( Argania spinosa L. Skeels) is an endemic tree of mid-western Morocco that plays an important socioeconomic and ecologic role for a dense human population in an arid zone. Several studies confirmed the importance of this species as a food and feed source and as a resource for both pharmaceutical and cosmetic compounds. Unfortunately, the argane tree ecosystem is facing significant threats from environmental changes (global warming, over-population) and over-exploitation. Limited research has been conducted, however, on argane tree genetics and genomics, which hinders its conservation and genetic improvement. Methods: Here, we present a draft genome assembly of A. spinosa. A reliable reference genome of A. spinosa was created using a hybrid de novo assembly approach combining short and long sequencing reads. Results: In total, 144 Gb Illumina HiSeq reads and 7.6 Gb PacBio reads were produced and assembled. The final draft genome comprises 75 327 scaffolds totaling 671 Mb with an N50 of 49 916 kb. The draft assembly is close to the genome size estimated by k-mers distribution and covers 89\% of complete and 4.3 \% of partial Arabidopsis orthologous groups in BUSCO. Conclusion: The A. spinosa genome will be useful for assessing biodiversity leading to efficient conservation of this endangered endemic tree. Furthermore, the genome may enable genome-assisted cultivar breeding, and provide a better understanding of important metabolic pathways and their underlying genes for both cosmetic and pharmacological.",

keywords = "Argane, Argania spinosa, Assembly, Endemic, Genome, International Argane Genome Consortium, Morocco",

author = "Slimane Khayi and Azza, \{Nour Elhouda\} and Fatima Gaboun and Stacy Pirro and Oussama Badad and Claros, \{M. Gonzalo\} and Lightfoot, \{David A.\} and Turgay Unver and Bouchra Chaouni and Redouane Merrouch and Bouchra Rahim and Soumaya Essayeh and Matika Ganoudi and Rabha Abdelwahd and Ghizlane Diria and Mdarhi, \{Meriem Alaoui\} and Mustapha Labhilili and Driss Iraqi and Jamila Mouhaddab and Hayat Sedrati and Majid Memari and Noureddine Hamamouch and Alch{\'e}, \{Juan de Dios\} and Noureddine Boukhatem and Rachid Mrabet and Rachid Dahan and Adelkhaleq Legssyer and Mohamed Khalfaoui and Mohamed Badraoui and \{Van de Peer\}, Yves and Tatiana Tatusova and \{El Mousadik\}, Abdelhamid and Rachid Mentag and Hassan Ghazal",

note = "Publisher Copyright: {\textcopyright} 2020 Khayi S et al.",

year = "2020",

doi = "10.12688/f1000research.15719.2",

language = "English",

volume = "7",

journal = "F1000Research",

issn = "2046-1402",

publisher = "F1000 Research Ltd",

}

Khayi, S, Azza, NE, Gaboun, F, Pirro, S, Badad, O, Claros, MG, Lightfoot, DA, Unver, T, Chaouni, B, Merrouch, R, Rahim, B, Essayeh, S, Ganoudi, M, Abdelwahd, R, Diria, G, Mdarhi, MA, Labhilili, M, Iraqi, D, Mouhaddab, J, Sedrati, H, Memari, M, Hamamouch, N, Alché, JDD, Boukhatem, N, Mrabet, R, Dahan, R, Legssyer, A, Khalfaoui, M, Badraoui, M, Van de Peer, Y, Tatusova, T, El Mousadik, A, Mentag, R & Ghazal, H 2020, 'First draft genome assembly of the Argane tree (Argania spinosa)', F1000Research, vol. 7, 1310. https://doi.org/10.12688/f1000research.15719.2

TY - JOUR

T1 - First draft genome assembly of the Argane tree (Argania spinosa)

AU - Khayi, Slimane

AU - Azza, Nour Elhouda

AU - Gaboun, Fatima

AU - Pirro, Stacy

AU - Badad, Oussama

AU - Claros, M. Gonzalo

AU - Lightfoot, David A.

AU - Unver, Turgay

AU - Chaouni, Bouchra

AU - Merrouch, Redouane

AU - Rahim, Bouchra

AU - Essayeh, Soumaya

AU - Ganoudi, Matika

AU - Abdelwahd, Rabha

AU - Diria, Ghizlane

AU - Mdarhi, Meriem Alaoui

AU - Labhilili, Mustapha

AU - Iraqi, Driss

AU - Mouhaddab, Jamila

AU - Sedrati, Hayat

AU - Memari, Majid

AU - Hamamouch, Noureddine

AU - Alché, Juan de Dios

AU - Boukhatem, Noureddine

AU - Mrabet, Rachid

AU - Dahan, Rachid

AU - Legssyer, Adelkhaleq

AU - Khalfaoui, Mohamed

AU - Badraoui, Mohamed

AU - Van de Peer, Yves

AU - Tatusova, Tatiana

AU - El Mousadik, Abdelhamid

AU - Mentag, Rachid

AU - Ghazal, Hassan

PY - 2020

Y1 - 2020

N2 - Background: The Argane tree ( Argania spinosa L. Skeels) is an endemic tree of mid-western Morocco that plays an important socioeconomic and ecologic role for a dense human population in an arid zone. Several studies confirmed the importance of this species as a food and feed source and as a resource for both pharmaceutical and cosmetic compounds. Unfortunately, the argane tree ecosystem is facing significant threats from environmental changes (global warming, over-population) and over-exploitation. Limited research has been conducted, however, on argane tree genetics and genomics, which hinders its conservation and genetic improvement. Methods: Here, we present a draft genome assembly of A. spinosa. A reliable reference genome of A. spinosa was created using a hybrid de novo assembly approach combining short and long sequencing reads. Results: In total, 144 Gb Illumina HiSeq reads and 7.6 Gb PacBio reads were produced and assembled. The final draft genome comprises 75 327 scaffolds totaling 671 Mb with an N50 of 49 916 kb. The draft assembly is close to the genome size estimated by k-mers distribution and covers 89% of complete and 4.3 % of partial Arabidopsis orthologous groups in BUSCO. Conclusion: The A. spinosa genome will be useful for assessing biodiversity leading to efficient conservation of this endangered endemic tree. Furthermore, the genome may enable genome-assisted cultivar breeding, and provide a better understanding of important metabolic pathways and their underlying genes for both cosmetic and pharmacological.

AB - Background: The Argane tree ( Argania spinosa L. Skeels) is an endemic tree of mid-western Morocco that plays an important socioeconomic and ecologic role for a dense human population in an arid zone. Several studies confirmed the importance of this species as a food and feed source and as a resource for both pharmaceutical and cosmetic compounds. Unfortunately, the argane tree ecosystem is facing significant threats from environmental changes (global warming, over-population) and over-exploitation. Limited research has been conducted, however, on argane tree genetics and genomics, which hinders its conservation and genetic improvement. Methods: Here, we present a draft genome assembly of A. spinosa. A reliable reference genome of A. spinosa was created using a hybrid de novo assembly approach combining short and long sequencing reads. Results: In total, 144 Gb Illumina HiSeq reads and 7.6 Gb PacBio reads were produced and assembled. The final draft genome comprises 75 327 scaffolds totaling 671 Mb with an N50 of 49 916 kb. The draft assembly is close to the genome size estimated by k-mers distribution and covers 89% of complete and 4.3 % of partial Arabidopsis orthologous groups in BUSCO. Conclusion: The A. spinosa genome will be useful for assessing biodiversity leading to efficient conservation of this endangered endemic tree. Furthermore, the genome may enable genome-assisted cultivar breeding, and provide a better understanding of important metabolic pathways and their underlying genes for both cosmetic and pharmacological.

KW - Argane

KW - Argania spinosa

KW - Assembly

KW - Endemic

KW - Genome

KW - International Argane Genome Consortium

KW - Morocco

UR - https://www.scopus.com/pages/publications/85085729089

U2 - 10.12688/f1000research.15719.2

DO - 10.12688/f1000research.15719.2

M3 - Article

SN - 2046-1402

VL - 7

JO - F1000Research

JF - F1000Research

M1 - 1310

ER -

First draft genome assembly of the Argane tree (Argania spinosa)

Abstract

Keywords

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