M. Nedellec scite author profile

A range of selected PVY isolates that induce superficial necrosis on potato tubers, originating from several countries, were compared with standard strains of PVA, PVV and PVY. Biological properties (e.g., host range, aphid transmissibility and relationships based on cross‐protection between virus isolates) were studied. PVYNN isolates differ from the normal PVYC, PVYN and PVO strains by their ability to infect Capsicum annuum but not Chenopodium amaranticolor and C. quinoa. All PVYNN isolates are transmissible by Myzus persicae, without any significant differences from one standard strain. These additional data confirm that these tuber‐necrosing isolates belong to PVY. However, they could be ranged in a homogeneous and distinct group inside the PVYN group, based on the differences revealed in the host range, in addition to the specific ability naturally to induce necrosis on tubers.

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Effect of plant genotype, virus isolate and temperature on the expression of the potato tuber necrotic ringspot disease (PTNRD)

Romancer

Nedellec²

1997

Plant Pathology

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The present study shows that a large range of potato cultivars (29/33 tested), widely grown in the world, are susceptible to potato tuber necrotic ringspot disease caused by potato virus Y. The three factors studied in this work, which proved to influence the level of tuber necrosis reaction, were, first, the plant genotype, since varietal behaviour exhibited large differences; second, the virus genotype, since variations of virulence occurred between the four isolates tested; and third, the environmental conditions, as shown by the different rates of tuber necrosis obtained under contrasting conditions of temperature as much during the growing period as during storage. Three of the cultivars tested, Spunta, Maris Piper and Thalassa, failed to produce necrotic tubers, although infected with a virulent tuber-necrosing isolate. This result, following observations on the inheritance of the tuber necrosis trait, suggests that at least a major dominant gene controls this reaction in non-sensitive cultivars. On the other hand, the extreme resistance genes (Ry) provide a good resistance to virus infection, thus, preventing tuber necrosis under field conditions.

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Optimization of an amplified system for the detection of Clostridium tyrobutyricum on nitrocellulose filters by use of monoclonal antibody in a gelified medium

Nedellec¹,

Cleret²,

Robreau³

et al. 1992

J Appl Microbiol

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Optimization of an amplified system for the detection of Clostridium tyrobutyricum on nitrocellulose filters by use of monoclonal antibody in a gelified medium

Nedellec

Cleret

Robreau

et al. 1992

Journal of Applied Bacteriology

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A method of immunological detection by an amplified system has been applied to detect Clostridium tyrobutyricum on nitrocellulose membranes. This method, adapted from an amplification technique, was used in a gelified medium with a monoclonal antibody raised against Cl. tyrobutyricum and an alkaline phosphatase‐conjugated antibody to mouse IgM. The technique permits the detection of about 30 bacteria per spot on membranes.

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M. Nedellec

Biological characterisation of various geographical isolates of potato virus Y inducing superficial necrosis on potato tubers

Effect of plant genotype, virus isolate and temperature on the expression of the potato tuber necrotic ringspot disease (PTNRD)

Optimization of an amplified system for the detection of Clostridium tyrobutyricum on nitrocellulose filters by use of monoclonal antibody in a gelified medium

Optimization of an amplified system for the detection of Clostridium tyrobutyricum on nitrocellulose filters by use of monoclonal antibody in a gelified medium

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