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Elucidation of the compatible interaction between banana and Meloidogyne incognita via high-throughput proteome profiling.


ABSTRACT: With a diverse host range, Meloidogyne incognita (root-knot nematode) is listed as one of the most economically important obligate parasites of agriculture. This nematode species establishes permanent feeding sites in plant root systems soon after infestation. A compatible host-nematode interaction triggers a cascade of morphological and physiological process disruptions of the host, leading to pathogenesis. Such disruption is reflected by altered gene expression in affected cells, detectable using molecular approaches. We employed a high-throughput proteomics approach to elucidate the events involved in a compatible banana- M. incognita interaction. This study serves as the first crucial step in developing natural banana resistance for the purpose of biological-based nematode management programme. We successfully profiled 114 Grand naine root proteins involved in the interaction with M. incognita at the 30th- and 60th- day after inoculation (dai). The abundance of proteins involved in fundamental biological processes, cellular component organisation and stress responses were significantly altered in inoculated root samples. In addition, the abundance of proteins in pathways associated with defence and giant cell maintenance in plants such as phenylpropanoid biosynthesis, glycolysis and citrate cycle were also implicated by the infestation.

SUBMITTER: Al-Idrus A 

PROVIDER: S-EPMC5456091 | biostudies-literature | 2017

REPOSITORIES: biostudies-literature

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Elucidation of the compatible interaction between banana and Meloidogyne incognita via high-throughput proteome profiling.

Al-Idrus Aisyafaznim A   Carpentier Sebastien Christian SC   Ahmad Mohamad Taufiq MT   Panis Bart B   Mohamed Zulqarnain Z  

PloS one 20170602 6


With a diverse host range, Meloidogyne incognita (root-knot nematode) is listed as one of the most economically important obligate parasites of agriculture. This nematode species establishes permanent feeding sites in plant root systems soon after infestation. A compatible host-nematode interaction triggers a cascade of morphological and physiological process disruptions of the host, leading to pathogenesis. Such disruption is reflected by altered gene expression in affected cells, detectable us  ...[more]

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