The metabotyping of an East African cassava diversity panel: A core collection for developing biotic stress tolerance in cassava.

The metabotyping of an East African cassava diversity panel: A core collection for developing biotic stress tolerance in cassava.

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Cassava will have a vital role to play, if food security is to be achieved in Sub-Saharan Africa, especially Central and East Africa. The whitefly Bemisia tabaci poses a major threat to cassava production by small holder farmers in part due to their role as a vector of cassava mosaic begomoviruses (...

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Main Authors: Laura Perez-Fons, Tatiana M Ovalle, M N Maruthi, John Colvin, Luis Augusto Becerra Lopez-Lavalle, Paul D Fraser
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0242245
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spelling doaj-4fda121942fb44999a95b88cbfccb9d22021-03-04T12:26:59ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-011511e024224510.1371/journal.pone.0242245The metabotyping of an East African cassava diversity panel: A core collection for developing biotic stress tolerance in cassava.Laura Perez-FonsTatiana M OvalleM N MaruthiJohn ColvinLuis Augusto Becerra Lopez-LavallePaul D FraserCassava will have a vital role to play, if food security is to be achieved in Sub-Saharan Africa, especially Central and East Africa. The whitefly Bemisia tabaci poses a major threat to cassava production by small holder farmers in part due to their role as a vector of cassava mosaic begomoviruses (CMBs) and cassava brown streak ipomoviruses (CBSIs). In the present study untargeted metabolomics has been used as a tool to assess natural variation, similarities and attempts to identify trait differentiators among an East African cassava diversity panel that displayed tolerance/resistance to the effects of Bemisia tabaci infestation. The metabolome captured, was represented by 1529 unique chemical features per accession. Principal component analysis (PCA) identified a 23% variation across the panel, with geographical origin/adaption the most influential classification factors. Separation based on resistance and susceptible traits to Bemisia tabaci could also be observed within the data and was corroborated by genotyping data. Thus the metabolomics pipeline represented an effective metabotyping approach. Agglomerative Hierarchical Clustering Analysis (HCA) of both the metabolomics and genotyping data was performed and revealed a high level of similarity between accessions. Specific differentiating features/metabolites were identified, including those potentially conferring vigour to whitefly tolerance on a constitutive manner. The implications of using these cassava varieties as parental breeding material and the future potential of incorporating more exotic donor material is discussed.https://doi.org/10.1371/journal.pone.0242245
collection DOAJ
language English
format Article
sources DOAJ
author Laura Perez-Fons
Tatiana M Ovalle
M N Maruthi
John Colvin
Luis Augusto Becerra Lopez-Lavalle
Paul D Fraser
spellingShingle Laura Perez-Fons
Tatiana M Ovalle
M N Maruthi
John Colvin
Luis Augusto Becerra Lopez-Lavalle
Paul D Fraser
The metabotyping of an East African cassava diversity panel: A core collection for developing biotic stress tolerance in cassava.
PLoS ONE
author_facet Laura Perez-Fons
Tatiana M Ovalle
M N Maruthi
John Colvin
Luis Augusto Becerra Lopez-Lavalle
Paul D Fraser
author_sort Laura Perez-Fons
title The metabotyping of an East African cassava diversity panel: A core collection for developing biotic stress tolerance in cassava.
title_short The metabotyping of an East African cassava diversity panel: A core collection for developing biotic stress tolerance in cassava.
title_full The metabotyping of an East African cassava diversity panel: A core collection for developing biotic stress tolerance in cassava.
title_fullStr The metabotyping of an East African cassava diversity panel: A core collection for developing biotic stress tolerance in cassava.
title_full_unstemmed The metabotyping of an East African cassava diversity panel: A core collection for developing biotic stress tolerance in cassava.
title_sort metabotyping of an east african cassava diversity panel: a core collection for developing biotic stress tolerance in cassava.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description Cassava will have a vital role to play, if food security is to be achieved in Sub-Saharan Africa, especially Central and East Africa. The whitefly Bemisia tabaci poses a major threat to cassava production by small holder farmers in part due to their role as a vector of cassava mosaic begomoviruses (CMBs) and cassava brown streak ipomoviruses (CBSIs). In the present study untargeted metabolomics has been used as a tool to assess natural variation, similarities and attempts to identify trait differentiators among an East African cassava diversity panel that displayed tolerance/resistance to the effects of Bemisia tabaci infestation. The metabolome captured, was represented by 1529 unique chemical features per accession. Principal component analysis (PCA) identified a 23% variation across the panel, with geographical origin/adaption the most influential classification factors. Separation based on resistance and susceptible traits to Bemisia tabaci could also be observed within the data and was corroborated by genotyping data. Thus the metabolomics pipeline represented an effective metabotyping approach. Agglomerative Hierarchical Clustering Analysis (HCA) of both the metabolomics and genotyping data was performed and revealed a high level of similarity between accessions. Specific differentiating features/metabolites were identified, including those potentially conferring vigour to whitefly tolerance on a constitutive manner. The implications of using these cassava varieties as parental breeding material and the future potential of incorporating more exotic donor material is discussed.
url https://doi.org/10.1371/journal.pone.0242245
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