Draft Genomes of Two Artocarpus Plants, Jackfruit (A. heterophyllus) and Breadfruit (A. altilis)

Sunil Kumar Sahu; Min Liu; Anna Yssel; Robert Kariba; Samuel Muthemba; Sanjie Jiang; Bo Song; Prasad S. Hendre; Alice Muchugi; Ramni Jamnadass; Shu Min Kao; Jonathan Featherston; Nyree J.C. Zerega; Xun Xu; Huanming Yang; Allen Van Deynze; Yves Van de Peer; Xin Liu; Huan Liu

doi:10.3390/genes11010027

Draft Genomes of Two Artocarpus Plants, Jackfruit (A. heterophyllus) and Breadfruit (A. altilis)

Sunil Kumar Sahu
, Min Liu
, Anna Yssel
, Robert Kariba
, Samuel Muthemba
, Sanjie Jiang
, Bo Song
, Prasad S. Hendre
, Alice Muchugi
, Ramni Jamnadass
, Shu Min Kao
, Jonathan Featherston
, Nyree J.C. Zerega
, Xun Xu
, Huanming Yang
, Allen Van Deynze
, Yves Van de Peer
, Xin Liu^*
, Huan Liu^*

^*Corresponding author for this work

Department of Biology

Research output: Contribution to journal › Journal article › peer-review

37 Citations (Scopus)

Abstract

Two of the most economically important plants in the Artocarpus genus are jackfruit (A. heterophyllus Lam.) and breadfruit (A. altilis (Parkinson) Fosberg). Both species are long-lived trees that have been cultivated for thousands of years in their native regions. Today they are grown throughout tropical to subtropical areas as an important source of starch and other valuable nutrients. There are hundreds of breadfruit varieties that are native to Oceania, of which the most commonly distributed types are seedless triploids. Jackfruit is likely native to the Western Ghats of India and produces one of the largest tree-borne fruit structures (reaching up to 45 kg). To-date, there is limited genomic information for these two economically important species. Here, we generated 273 Gb and 227 Gb of raw data from jackfruit and breadfruit, respectively. The high-quality reads from jackfruit were assembled into 162,440 scaffolds totaling 982 Mb with 35,858 genes. Similarly, the breadfruit reads were assembled into 180,971 scaffolds totaling 833 Mb with 34,010 genes. A total of 2822 and 2034 expanded gene families were found in jackfruit and breadfruit, respectively, enriched in pathways including starch and sucrose metabolism, photosynthesis, and others. The copy number of several starch synthesis-related genes were found to be increased in jackfruit and breadfruit compared to closely-related species, and the tissue-specific expression might imply their sugar-rich and starch-rich characteristics. Overall, the publication of high-quality genomes for jackfruit and breadfruit provides information about their specific composition and the underlying genes involved in sugar and starch metabolism.

Original language	English
Article number	27
Number of pages	17
Journal	Genes
Volume	11
Issue number	1
DOIs	https://doi.org/10.3390/genes11010027
Publication status	Published - 24 Dec 2019

UN SDGs

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SDG 2 Zero Hunger

User-Defined Keywords

jackfruit
breadfruit
A. heterophyllus
A. altilis
starch synthesis

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10.3390/genes11010027

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Sahu, S. K., Liu, M., Yssel, A., Kariba, R., Muthemba, S., Jiang, S., Song, B., Hendre, P. S., Muchugi, A., Jamnadass, R., Kao, S. M., Featherston, J., Zerega, N. J. C., Xu, X., Yang, H., Van Deynze, A., Van de Peer, Y., Liu, X., & Liu, H. (2019). Draft Genomes of Two Artocarpus Plants, Jackfruit (A. heterophyllus) and Breadfruit (A. altilis). Genes, 11(1), Article 27. https://doi.org/10.3390/genes11010027

@article{c718867f6482421b8f2ebe0fd677e4fa,

title = "Draft Genomes of Two Artocarpus Plants, Jackfruit (A. heterophyllus) and Breadfruit (A. altilis)",

abstract = "Two of the most economically important plants in the Artocarpus genus are jackfruit (A. heterophyllus Lam.) and breadfruit (A. altilis (Parkinson) Fosberg). Both species are long-lived trees that have been cultivated for thousands of years in their native regions. Today they are grown throughout tropical to subtropical areas as an important source of starch and other valuable nutrients. There are hundreds of breadfruit varieties that are native to Oceania, of which the most commonly distributed types are seedless triploids. Jackfruit is likely native to the Western Ghats of India and produces one of the largest tree-borne fruit structures (reaching up to 45 kg). To-date, there is limited genomic information for these two economically important species. Here, we generated 273 Gb and 227 Gb of raw data from jackfruit and breadfruit, respectively. The high-quality reads from jackfruit were assembled into 162,440 scaffolds totaling 982 Mb with 35,858 genes. Similarly, the breadfruit reads were assembled into 180,971 scaffolds totaling 833 Mb with 34,010 genes. A total of 2822 and 2034 expanded gene families were found in jackfruit and breadfruit, respectively, enriched in pathways including starch and sucrose metabolism, photosynthesis, and others. The copy number of several starch synthesis-related genes were found to be increased in jackfruit and breadfruit compared to closely-related species, and the tissue-specific expression might imply their sugar-rich and starch-rich characteristics. Overall, the publication of high-quality genomes for jackfruit and breadfruit provides information about their specific composition and the underlying genes involved in sugar and starch metabolism.",

keywords = "jackfruit, breadfruit, A. heterophyllus, A. altilis, starch synthesis",

author = "Sahu, \{Sunil Kumar\} and Min Liu and Anna Yssel and Robert Kariba and Samuel Muthemba and Sanjie Jiang and Bo Song and Hendre, \{Prasad S.\} and Alice Muchugi and Ramni Jamnadass and Kao, \{Shu Min\} and Jonathan Featherston and Zerega, \{Nyree J.C.\} and Xun Xu and Huanming Yang and \{Van Deynze\}, Allen and \{Van de Peer\}, Yves and Xin Liu and Huan Liu",

note = "Publisher Copyright: {\textcopyright} 2019 by the authors. Licensee MDPI, Basel, Switzerland. Funding Information: This work was supported by National Key Research and Development Program of China (No. 2016YFE0122000), the Shenzhen Municipal Government of China, (no. JCYJ20150831201123287 and No. JCYJ20160510141910129), the Guangdong Provincial Key Laboratory of Genome Read and Write (no. 2017B030301011), Illumina Greater Good Initiative and the NMPA Key Laboratory for Rapid Testing Technology of Drugs. We also thank Arthur Zwanepoel for his insights and technical assistance. This work is part of 10KP project.",

year = "2019",

month = dec,

day = "24",

doi = "10.3390/genes11010027",

language = "English",

volume = "11",

journal = "Genes",

issn = "2073-4425",

publisher = "MDPI",

number = "1",

}

Sahu, SK, Liu, M, Yssel, A, Kariba, R, Muthemba, S, Jiang, S, Song, B, Hendre, PS, Muchugi, A, Jamnadass, R, Kao, SM, Featherston, J, Zerega, NJC, Xu, X, Yang, H, Van Deynze, A, Van de Peer, Y, Liu, X & Liu, H 2019, 'Draft Genomes of Two Artocarpus Plants, Jackfruit (A. heterophyllus) and Breadfruit (A. altilis)', Genes, vol. 11, no. 1, 27. https://doi.org/10.3390/genes11010027

TY - JOUR

T1 - Draft Genomes of Two Artocarpus Plants, Jackfruit (A. heterophyllus) and Breadfruit (A. altilis)

AU - Sahu, Sunil Kumar

AU - Liu, Min

AU - Yssel, Anna

AU - Kariba, Robert

AU - Muthemba, Samuel

AU - Jiang, Sanjie

AU - Song, Bo

AU - Hendre, Prasad S.

AU - Muchugi, Alice

AU - Jamnadass, Ramni

AU - Kao, Shu Min

AU - Featherston, Jonathan

AU - Zerega, Nyree J.C.

AU - Xu, Xun

AU - Yang, Huanming

AU - Van Deynze, Allen

AU - Van de Peer, Yves

AU - Liu, Xin

AU - Liu, Huan

N1 - Publisher Copyright: © 2019 by the authors. Licensee MDPI, Basel, Switzerland. Funding Information: This work was supported by National Key Research and Development Program of China (No. 2016YFE0122000), the Shenzhen Municipal Government of China, (no. JCYJ20150831201123287 and No. JCYJ20160510141910129), the Guangdong Provincial Key Laboratory of Genome Read and Write (no. 2017B030301011), Illumina Greater Good Initiative and the NMPA Key Laboratory for Rapid Testing Technology of Drugs. We also thank Arthur Zwanepoel for his insights and technical assistance. This work is part of 10KP project.

PY - 2019/12/24

Y1 - 2019/12/24

N2 - Two of the most economically important plants in the Artocarpus genus are jackfruit (A. heterophyllus Lam.) and breadfruit (A. altilis (Parkinson) Fosberg). Both species are long-lived trees that have been cultivated for thousands of years in their native regions. Today they are grown throughout tropical to subtropical areas as an important source of starch and other valuable nutrients. There are hundreds of breadfruit varieties that are native to Oceania, of which the most commonly distributed types are seedless triploids. Jackfruit is likely native to the Western Ghats of India and produces one of the largest tree-borne fruit structures (reaching up to 45 kg). To-date, there is limited genomic information for these two economically important species. Here, we generated 273 Gb and 227 Gb of raw data from jackfruit and breadfruit, respectively. The high-quality reads from jackfruit were assembled into 162,440 scaffolds totaling 982 Mb with 35,858 genes. Similarly, the breadfruit reads were assembled into 180,971 scaffolds totaling 833 Mb with 34,010 genes. A total of 2822 and 2034 expanded gene families were found in jackfruit and breadfruit, respectively, enriched in pathways including starch and sucrose metabolism, photosynthesis, and others. The copy number of several starch synthesis-related genes were found to be increased in jackfruit and breadfruit compared to closely-related species, and the tissue-specific expression might imply their sugar-rich and starch-rich characteristics. Overall, the publication of high-quality genomes for jackfruit and breadfruit provides information about their specific composition and the underlying genes involved in sugar and starch metabolism.

AB - Two of the most economically important plants in the Artocarpus genus are jackfruit (A. heterophyllus Lam.) and breadfruit (A. altilis (Parkinson) Fosberg). Both species are long-lived trees that have been cultivated for thousands of years in their native regions. Today they are grown throughout tropical to subtropical areas as an important source of starch and other valuable nutrients. There are hundreds of breadfruit varieties that are native to Oceania, of which the most commonly distributed types are seedless triploids. Jackfruit is likely native to the Western Ghats of India and produces one of the largest tree-borne fruit structures (reaching up to 45 kg). To-date, there is limited genomic information for these two economically important species. Here, we generated 273 Gb and 227 Gb of raw data from jackfruit and breadfruit, respectively. The high-quality reads from jackfruit were assembled into 162,440 scaffolds totaling 982 Mb with 35,858 genes. Similarly, the breadfruit reads were assembled into 180,971 scaffolds totaling 833 Mb with 34,010 genes. A total of 2822 and 2034 expanded gene families were found in jackfruit and breadfruit, respectively, enriched in pathways including starch and sucrose metabolism, photosynthesis, and others. The copy number of several starch synthesis-related genes were found to be increased in jackfruit and breadfruit compared to closely-related species, and the tissue-specific expression might imply their sugar-rich and starch-rich characteristics. Overall, the publication of high-quality genomes for jackfruit and breadfruit provides information about their specific composition and the underlying genes involved in sugar and starch metabolism.

KW - jackfruit

KW - breadfruit

KW - A. heterophyllus

KW - A. altilis

KW - starch synthesis

UR - https://www.scopus.com/pages/publications/85077262117

U2 - 10.3390/genes11010027

DO - 10.3390/genes11010027

M3 - Journal article

C2 - 31878322

AN - SCOPUS:85077262117

SN - 2073-4425

VL - 11

JO - Genes

JF - Genes

IS - 1

M1 - 27

ER -

Draft Genomes of Two Artocarpus Plants, Jackfruit (A. heterophyllus) and Breadfruit (A. altilis)

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