Patrick Topart scite author profile

Patrick Topart

4Publications

87Citation Statements Received

43Citation Statements Given

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Affiliations

Centre Hospitalier Universitaire de Martinique, Institut de Recherche pour le Développement, Centro Agronomico Tropical de Investigacion y Ensenanza Catie

Publications

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Hypersensitive‐like reaction conferred by the Mex‐1 resistance gene against Meloidogyne exigua in coffee

et al. 2005

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The response of a susceptible coffee cultivar (Caturra) to infection by the root-knot nematode Meloidogyne exigua was compared histologically with that of cv. Iapar 59 possessing the recently identified Mex-1 resistance gene. The reproductive behaviour of the nematode was also compared in the two cultivars. Penetration and development in resistant plants were reduced in comparison with susceptible plants. Several cell features, including dark-stained cytoplasm and altered organelle structure, were observed in the resistant cultivar, indicating a hypersensitive-like (HR) response of the infested host cells. Features of giant cells were sometimes found beside necrotic-like areas, but the corresponding feeding sites were frequently associated with nematodes displaying abnormal shape. Six weeks after inoculation, root systems of cv. Caturra contained significantly more nematodes than those of cv. Iapar 59 (mean values 1574 and 41, respectively). The susceptible cultivar presented a minimum of 11 galls per plant, compared with only one or two galls per plant in the resistant cultivar. The findings are discussed in the context of plant-pathogen interactions.

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Status of weeds as reservoirs of plant parasitic nematodes in banana fields in Martinique

et al. 2006

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Molecular Breeding in Coffee (Coffea Arabica L.)

Lebailly¹,

Combes²,

Topart

et al. 2000

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Nematode resistance in bananas: screening results on some wild and cultivated accessions of Musa spp.

et al. 2008

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Bananas cultivated for export all belong to Cavendish cultivars and are all recognized as very susceptible to nematodes, particularly to the burrowing nematode Radopholus similis and the lesion nematode Pratylenchus coffeae. Even if there have been many changes in the management of banana nematodes in large commercial banana plantations, chemical control still remains most often the last resort method to manage the nematodes, although the number of registered products is definitely declining. Therefore, nematode control though genetic improvement is gaining new interest worldwide. In this study, 55 banana accessions mostly diploids from the Musa acuminata genome group (AA) but including some triploid accessions (AAA), some diploids of the Musa balbisiana genome group (BB) and some interspecific hybrids (AAB, AB) were evaluated for resistance to four nematode species R. similis, P. coffeae, Meloidogyne incognita and M. arenaria. These experiments were conducted in a growth chamber under controlled conditions. All banana accessions were susceptible to nematode species, although many different levels of susceptibility were detected. This study confirmed the good resistance status to R. similis of some cultivars from the Pisang jari buaya and Pisang batuau subgroups and the partial resistance of 17 diploid accessions significantly different from the susceptible reference cv. Grande Naine. This study also showed that 12 diploid accessions exhibited a partial resistance to P. coffeae, including some usual or potential genitors belonging to the wild diploids subspecies burmannica (cvs. Long Tavoy 1 and 2) and burmannicoides (cv. Calcutta 4). No source of resistance to Meloidogyne spp. was found. These screening results, combining for the first time four nematode species, are discussed within the scope of banana breeding in order to produce parental diploid lines with single or combined nematode resistances and further develop triploids that can substitute existing susceptible commercial cultivars.

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Patrick Topart

Hypersensitive‐like reaction conferred by the Mex‐1 resistance gene against Meloidogyne exigua in coffee

Status of weeds as reservoirs of plant parasitic nematodes in banana fields in Martinique

Molecular Breeding in Coffee (Coffea Arabica L.)

Nematode resistance in bananas: screening results on some wild and cultivated accessions of Musa spp.

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