Chromosome-level genome assembly and population genomic resource to accelerate orphan crop lablab breeding

Isaac Njaci; Bernice Waweru; Nadia Kamal; Meki Shehabu Muktar; David Fisher; Heidrun Gundlach; Collins Muli; Lucy Muthui; Mary Maranga; Davies Kiambi; Brigitte L. Maass; Peter M.F. Emmrich; Jean Baka Domelevo Entfellner; Manuel Spannagl; Mark A. Chapman; Oluwaseyi Shorinola; Chris S. Jones

doi:10.1038/s41467-023-37489-7

Chromosome-level genome assembly and population genomic resource to accelerate orphan crop lablab breeding

Isaac Njaci
, Bernice Waweru
, Nadia Kamal
, Meki Shehabu Muktar
, David Fisher
, Heidrun Gundlach
, Collins Muli
, Lucy Muthui
, Mary Maranga
, Davies Kiambi
, Brigitte L. Maass
, Peter M.F. Emmrich
, Jean Baka Domelevo Entfellner
, Manuel Spannagl
, Mark A. Chapman^*
, Oluwaseyi Shorinola^*
, Chris S. Jones^*

^*Corresponding author for this work

Biosciences

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

Abstract

Under-utilised orphan crops hold the key to diversified and climate-resilient food systems. Here, we report on orphan crop genomics using the case of Lablab purpureus (L.) Sweet (lablab) - a legume native to Africa and cultivated throughout the tropics for food and forage. Our Africa-led plant genome collaboration produces a high-quality chromosome-scale assembly of the lablab genome. Our assembly highlights the genome organisation of the trypsin inhibitor genes - an important anti-nutritional factor in lablab. We also re-sequence cultivated and wild lablab accessions from Africa confirming two domestication events. Finally, we examine the genetic and phenotypic diversity in a comprehensive lablab germplasm collection and identify genomic loci underlying variation of important agronomic traits in lablab. The genomic data generated here provide a valuable resource for lablab improvement. Our inclusive collaborative approach also presents an example that can be explored by other researchers sequencing indigenous crops, particularly from low and middle-income countries (LMIC).

Original language	English
Article number	1915
Journal	Nature Communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-37489-7
Publication status	Published - 17 Apr 2023

Bibliographical note

Publisher Copyright:
© 2023, The Author(s).

ASJC Scopus subject areas

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General
General Physics and Astronomy

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Njaci, I., Waweru, B., Kamal, N., Muktar, M. S., Fisher, D., Gundlach, H., Muli, C., Muthui, L., Maranga, M., Kiambi, D., Maass, B. L., Emmrich, P. M. F., Domelevo Entfellner, J. B., Spannagl, M., Chapman, M. A., Shorinola, O., & Jones, C. S. (2023). Chromosome-level genome assembly and population genomic resource to accelerate orphan crop lablab breeding. Nature Communications, 14(1), Article 1915. https://doi.org/10.1038/s41467-023-37489-7

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title = "Chromosome-level genome assembly and population genomic resource to accelerate orphan crop lablab breeding",

abstract = "Under-utilised orphan crops hold the key to diversified and climate-resilient food systems. Here, we report on orphan crop genomics using the case of Lablab purpureus (L.) Sweet (lablab) - a legume native to Africa and cultivated throughout the tropics for food and forage. Our Africa-led plant genome collaboration produces a high-quality chromosome-scale assembly of the lablab genome. Our assembly highlights the genome organisation of the trypsin inhibitor genes - an important anti-nutritional factor in lablab. We also re-sequence cultivated and wild lablab accessions from Africa confirming two domestication events. Finally, we examine the genetic and phenotypic diversity in a comprehensive lablab germplasm collection and identify genomic loci underlying variation of important agronomic traits in lablab. The genomic data generated here provide a valuable resource for lablab improvement. Our inclusive collaborative approach also presents an example that can be explored by other researchers sequencing indigenous crops, particularly from low and middle-income countries (LMIC).",

author = "Isaac Njaci and Bernice Waweru and Nadia Kamal and Muktar, \{Meki Shehabu\} and David Fisher and Heidrun Gundlach and Collins Muli and Lucy Muthui and Mary Maranga and Davies Kiambi and Maass, \{Brigitte L.\} and Emmrich, \{Peter M.F.\} and \{Domelevo Entfellner\}, \{Jean Baka\} and Manuel Spannagl and Chapman, \{Mark A.\} and Oluwaseyi Shorinola and Jones, \{Chris S.\}",

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Njaci, I, Waweru, B, Kamal, N, Muktar, MS, Fisher, D, Gundlach, H, Muli, C, Muthui, L, Maranga, M, Kiambi, D, Maass, BL, Emmrich, PMF, Domelevo Entfellner, JB, Spannagl, M, Chapman, MA, Shorinola, O & Jones, CS 2023, 'Chromosome-level genome assembly and population genomic resource to accelerate orphan crop lablab breeding', Nature Communications, vol. 14, no. 1, 1915. https://doi.org/10.1038/s41467-023-37489-7

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AU - Njaci, Isaac

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AU - Fisher, David

AU - Gundlach, Heidrun

AU - Muli, Collins

AU - Muthui, Lucy

AU - Maranga, Mary

AU - Kiambi, Davies

AU - Maass, Brigitte L.

AU - Emmrich, Peter M.F.

AU - Domelevo Entfellner, Jean Baka

AU - Spannagl, Manuel

AU - Chapman, Mark A.

AU - Shorinola, Oluwaseyi

AU - Jones, Chris S.

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AB - Under-utilised orphan crops hold the key to diversified and climate-resilient food systems. Here, we report on orphan crop genomics using the case of Lablab purpureus (L.) Sweet (lablab) - a legume native to Africa and cultivated throughout the tropics for food and forage. Our Africa-led plant genome collaboration produces a high-quality chromosome-scale assembly of the lablab genome. Our assembly highlights the genome organisation of the trypsin inhibitor genes - an important anti-nutritional factor in lablab. We also re-sequence cultivated and wild lablab accessions from Africa confirming two domestication events. Finally, we examine the genetic and phenotypic diversity in a comprehensive lablab germplasm collection and identify genomic loci underlying variation of important agronomic traits in lablab. The genomic data generated here provide a valuable resource for lablab improvement. Our inclusive collaborative approach also presents an example that can be explored by other researchers sequencing indigenous crops, particularly from low and middle-income countries (LMIC).

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Chromosome-level genome assembly and population genomic resource to accelerate orphan crop lablab breeding

Abstract

Bibliographical note

ASJC Scopus subject areas

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