Molecular Cloning, Detection of Chromosomal DNA of the Mycoplasmalike Organism (MLO) Associated with Faba Bean (Vicia faba L.) Phyllody by Southern Blot Hybridization and the Polymerase Chain Reaction (PCR)

Abstract

AbstractDNA from faba bean (Vicia faba L.) phyllody‐diseased periwinle plants was separated from host plant DNA by bisbenzimid‐CsCl buoyant‐density gradient centrifugation. The mycoplasmalike organism (MLO) DNA was used for the construction of DNA probes. Two probes, 1.45 and 1.35 kbp, were selected and used for the detection of MLO DNA associated with faba pean (FBP) and for assessing the genetic relatedness of FBP‐MLO with other mollicutes. The 1.45 kbp DNA probe hybridized with all MLO strains and, with Spiroplasma citri. The 1.35 kbp DNA probe specifically detected the MLO associated with FBP.Moreover, a specific primer pair (E1 and E2) selected from the partially sequenced 1.35 kbp probe allowed amplification of the 1.35 kbp fragment. DNA amplification was obtained also with Crotaltiana saltiana phyllody (Sudan), C. juncea, witches' broom (Thailand), and tomato big‐bud (Australia), but no amplification was obtained in the cases of the healthy control, C. roseus phyllody (isolate n0) from Sudan, clover phyllody, Gladiolus aster yellow and yellow decline of lavender from France. The very strong signal observed in the case of FBP and C. saltiana phyllody agrees with previous results indicating that FBP and C. saltiana phyllody are caused by an identical MLO, and hence, C. saltiana acts as a reservoir of FBP‐MLO in the Sudan. The weak signal obtained in the case of C. juncea witches' broom and tomáto big‐bud indicates partial nucleotide homology. The major interest of this primer pair is the low quantity (as little as 100 pg) of the total DNA of diseased plant required for the detection of the FBP disease and the possibility of detecting genetic relatedness with other MLOs.