In vitro selection of alfalfa plants resistant to Fusarium oxysporum f. sp. medicaginis

Gnotobiotic evaluation of Dalbergia sissoo genotypes for resistance against Fusarium solani via dual culture set up

BACKGROUND

Dalbergia sissoo (shisham), an important multipurpose tree native to the Indian subcontinent and also planted in other countries, has been afflicted with large scale mortality in all age groups due to wilt disease, causing huge economic losses. Fusarium solani f. sp. dalbergiae (Fsd) has been identified as one of the causal organisms for wilt disease in D. sissoo. One of the approaches of disease resistance studies involves co-cultivation of trees and pathogens under controlled conditions to screen resistant tree genotypes. A gnotobiotic condition, where the pathogen is known, enables accurate screening of disease-resistant genotypes. In the present study, ten genotypes of D. sissoo were cloned in vitro and evaluated against two strains of Fsd in a dual culture setup under gnotobiotic conditions with an objective to identify resistant genotypes of D. sissoo against Fsd.

RESULTS

Callus and plantlets of ten genotypes of host plant multiplied in vitro were inoculated with conidial suspension of two strains of Fsd at three concentrations; 1 × 101, 1 × 103, and 1 × 105 conidia/ml. Gnotobiotic evaluation of dual culture setup shows variations among genotypes in their response towards in vitro Fsd infection; and two genotypes (14 and 66) exhibited resistance against Fsd strains. Callus of genotypes 14 and 66 significantly restricted the fungal mycelium growth whereas callus of remaining genotypes was completely infested by Fsd mycelium within 9 days. Similarly, plantlets of genotype 14 and 66 had lesser disease severity and remained green and had fewer necrotic lesions in roots whereas plantlets of the remaining eight genotypes died within 15 days.

CONCLUSION

Gnotobiotic evaluation of callus and plantlets of ten genotypes of D. sissoo against Fsd strains has reduced time and space otherwise required for field trials. Genetic variations amongst the genotypes resulted in varying responses towards virulent Fsd strains and only two out of ten genotypes showed promising resistant characteristics. In dual culture setup, both callus and plantlets of the same genotypes responded similarly against Fsd strains, which signify that in vitro screening can be used as an indirect selection method for disease resistance.

In vitro selection of calli of Citrus jambhiri Lush. for tolerance to culture filtrate of Phytophthora parasitica and their regeneration

The present study deals with the selection of Phytophthora tolerant lines of Citrus jambhiri and their regeneration. Cotyledon derived calli were cultured on selective MS medium supplemented with 5-100 % of culture filtrate (CF), to estimate the critical concentration of the selective agent. The survived calli under stress were subcultured for mass propagation for 20 days on callus multiplication medium (2,4-D 2 mg/L + BA 0.75 mg/L) without culture filtrate. After multiplication, these calli were further exposed to other cycles of selection, which contained the same and the 3 steps higher concentrations of the selective agent (CF) and this procedure was repeated several times until the selection regime completed. The selected tolerant calli were transferred to regeneration medium (MS medium supplemented with 3 mg/L of BA and same concentration of culture filtrate on which the calli were selected). Regenerated shoots were transferred to rooting medium (½ strength MS medium supplemented with 0.5 mg/L of NAA). Under in vivo conditions about 81 % of the selected regenerates exhibited resistance to Phytophthora parasitica, whereas none of the control plants showed resistance.

Toxin-based in-vitro selection and its potential application to date palm for resistance to the bayoud Fusarium wilt

Date palm (Phoenix dactylifera L.) is qualified as a 'tree' of great ecological and socio-economical importance in desert oases. Unfortunately, it is being decimated, especially in Morocco and Algeria, by a fusariosis wilt called bayoud and caused by Fusarium oxysporum f. sp. albedinis (Fao). Controlling this disease requires the implementation of an integrated management program. Breeding for resistance is one of the most promising component strategies of this program. Few naturally resistant cultivars with a mediocre fruit quality (dates) are known. Conventional and non-conventional methods are under development and have to use the simplest and easiest methods to screen for resistant individuals. The use of pathogen toxins as selective agents at the tissue culture step might be a source of variability that can lead to the selection of individuals with suitable levels of resistance to the toxin and/or to the pathogen among the genetic material available. Foa produces toxins such as fusaric, succinic, 3-phenyl lactic acids and their derivatives, marasmins and peptidic toxins. These toxins can be used bulked or separately as selective agents. The aim of this contribution was to give a brief overview on toxins and their use as a mean to select resistant lines and to initiate a discussion about the potential use of this approach for the date palm-Foa pathosystem. This review does not pretend to be comprehensive or exhaustive and was prepared mainly to highlight the potential use of Foa toxins for selecting date palm individuals with a suitable resistance level to bayoud using toxin-based selective media.

Effects ofVerticillium albo-atrum culture filtrate on somatic embryogenesis in alfalfa

Cell suspensions derived from young petioles of alfalfa (Medicago sativa L.) were cultured in the presence and absence of aVerticillium albo-atrum culture filtrate (20% v/v) for 6 cycles. The frequency of somatic embryogenesis and the growth rate of the suspension cultures were investigated at each cycle. Somatic embryogenesis in the filtrate-treated cultures declined but was still at a relatively high level after 6 subcultures, compared to controls cultures which virtually lost the capacity for embryo formation in the same period. The decline in the embryogenic capacity of filtrate treated-cultures was accompanied by a six-fold increase in the rate of growth of the cultures.