Mapping quantitative trait loci for fusarium root rot in common bean (phaseolus vulgaris l.)

Mapping quantitative trait loci for fusarium root rot in common bean (phaseolus vulgaris l.)

The common bean is a primary protein source in the diet of many low-income populations. Bean root rots occur in most bean fields. Genetic resistance to Fusarium root rot caused by Fusarium solani f.sp. phaseoli is polygenic and is strongly influenced by environmental factors that confound the expression and detection of resistance mechanisms. Response to selection for root rot resistance is slow due to genetic complexity of the trait that makes it difficult to evaluate. Indirect selection for Fusarium root rot resistance based on DNA markers linked to the resistance QTL would facilitate improvement of Fusarium root rot, given the limitations of field selection. The study is aimed at identify significant QTL- simple sequence repeat (SSR) marker associations, which could be used to facilitate marker-assisted selection for Fusarium root rot resistance in common bean.

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Bibliographic Details
Main Authors: Kamfwa, K., Okori, Patrick, Mwala, M, Mukankusi, Clare Mugisha
Format: Poster biblioteca
Language:English
Published: Pan-Africa Bean Research Alliance 2016
Subjects:phaseolus vulgaris, fusarium solani, common bean, genetic resistance, quantitative trait loci,
Online Access:https://hdl.handle.net/10568/96154
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spelling dig-cgspace-10568-961542023-02-15T05:05:46Z Mapping quantitative trait loci for fusarium root rot in common bean (phaseolus vulgaris l.) Kamfwa, K. Okori, Patrick Mwala, M Mukankusi, Clare Mugisha phaseolus vulgaris fusarium solani common bean genetic resistance quantitative trait loci The common bean is a primary protein source in the diet of many low-income populations. Bean root rots occur in most bean fields. Genetic resistance to Fusarium root rot caused by Fusarium solani f.sp. phaseoli is polygenic and is strongly influenced by environmental factors that confound the expression and detection of resistance mechanisms. Response to selection for root rot resistance is slow due to genetic complexity of the trait that makes it difficult to evaluate. Indirect selection for Fusarium root rot resistance based on DNA markers linked to the resistance QTL would facilitate improvement of Fusarium root rot, given the limitations of field selection. The study is aimed at identify significant QTL- simple sequence repeat (SSR) marker associations, which could be used to facilitate marker-assisted selection for Fusarium root rot resistance in common bean. 2016 2018-07-13T21:01:50Z 2018-07-13T21:01:50Z Poster Kamfwa, K., Okori, P., Mwala, M., Mukankusi, C. (2016). Mapping quantitative trait loci for fusarium root rot in common bean (phaseolus vulgaris l.). Pan-Africa Bean Research Alliance - PABRA. 1 p. https://hdl.handle.net/10568/96154 en Open Access 1 p. application/pdf Pan-Africa Bean Research Alliance
institution CGIAR
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-cgspace
tag biblioteca
region Europa del Oeste
libraryname Biblioteca del CGIAR
language English
topic phaseolus vulgaris
fusarium solani
common bean
genetic resistance
quantitative trait loci
phaseolus vulgaris
fusarium solani
common bean
genetic resistance
quantitative trait loci
spellingShingle phaseolus vulgaris
fusarium solani
common bean
genetic resistance
quantitative trait loci
phaseolus vulgaris
fusarium solani
common bean
genetic resistance
quantitative trait loci
Kamfwa, K.
Okori, Patrick
Mwala, M
Mukankusi, Clare Mugisha
Mapping quantitative trait loci for fusarium root rot in common bean (phaseolus vulgaris l.)
description The common bean is a primary protein source in the diet of many low-income populations. Bean root rots occur in most bean fields. Genetic resistance to Fusarium root rot caused by Fusarium solani f.sp. phaseoli is polygenic and is strongly influenced by environmental factors that confound the expression and detection of resistance mechanisms. Response to selection for root rot resistance is slow due to genetic complexity of the trait that makes it difficult to evaluate. Indirect selection for Fusarium root rot resistance based on DNA markers linked to the resistance QTL would facilitate improvement of Fusarium root rot, given the limitations of field selection. The study is aimed at identify significant QTL- simple sequence repeat (SSR) marker associations, which could be used to facilitate marker-assisted selection for Fusarium root rot resistance in common bean.
format Poster
topic_facet phaseolus vulgaris
fusarium solani
common bean
genetic resistance
quantitative trait loci
author Kamfwa, K.
Okori, Patrick
Mwala, M
Mukankusi, Clare Mugisha
author_facet Kamfwa, K.
Okori, Patrick
Mwala, M
Mukankusi, Clare Mugisha
author_sort Kamfwa, K.
title Mapping quantitative trait loci for fusarium root rot in common bean (phaseolus vulgaris l.)
title_short Mapping quantitative trait loci for fusarium root rot in common bean (phaseolus vulgaris l.)
title_full Mapping quantitative trait loci for fusarium root rot in common bean (phaseolus vulgaris l.)
title_fullStr Mapping quantitative trait loci for fusarium root rot in common bean (phaseolus vulgaris l.)
title_full_unstemmed Mapping quantitative trait loci for fusarium root rot in common bean (phaseolus vulgaris l.)
title_sort mapping quantitative trait loci for fusarium root rot in common bean (phaseolus vulgaris l.)
publisher Pan-Africa Bean Research Alliance
publishDate 2016
url https://hdl.handle.net/10568/96154
work_keys_str_mv AT kamfwak mappingquantitativetraitlociforfusariumrootrotincommonbeanphaseolusvulgarisl
AT okoripatrick mappingquantitativetraitlociforfusariumrootrotincommonbeanphaseolusvulgarisl
AT mwalam mappingquantitativetraitlociforfusariumrootrotincommonbeanphaseolusvulgarisl
AT mukankusiclaremugisha mappingquantitativetraitlociforfusariumrootrotincommonbeanphaseolusvulgarisl
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