Development of a scar marker for Pierce's Disease strains of Xylella fastidiosa

The objective of this research was to develop a primer for a polymerase chain reaction specific for Xylella fastidiosa strains that cause Pierce's Disease (PD) in grapes (Vitis vinifera). The DNA amplification of 23 different strains of X. fastidiosa, using a set of primers REP1-R (5'-IIIICGICGIATCCIGGC-3') and REP 2 (5'-ICGICTTATCIGGCCTAC-3') using the following program: 94 ºC/2 min; 35 X (94 ºC/1 min, 45 ºC/1 min and 72 ºC/1 min and 30 s) 72 ºC/5 min, produced a fragment of 630 bp that differentiated the strains that cause disease in grapes from the other strains. However, REP banding patterns could not be considered reliable for detection because the REP1-R and REP 2 primers correspond to repetitive sequences, which are found throughout the bacterial genome. The amplified product of 630 bp was eluted from the agarose gel, purified and sequenced. The nucleotide sequence information was used to identify and synthesize an specific oligonucleotide for X. fastidiosa strains that cause Pierce's Disease denominated Xf-1 (5'-CGGGGGTGTAGGAGGGGTTGT-3') which was used jointly with the REP-2 primer at the following conditions: 94 ºC/2 min; 35 X (94 ºC/1 min, 62 ºC/1 min; 72 ºC/1 min and 30 s) 72 ºC/10 min. The DNAs isolated from strains of X. fastidiosa from other hosts [almond (Prumus amygdalus), citrus (Citrus spp.), coffee (Coffea arabica), elm (Ulmus americana), mulberry (Morus rubra), oak (Quercus rubra), periwinkle wilt (Catharantus roseus), plums (Prunus salicina) and ragweed (Ambrosia artemisiifolia)] and also from other Gram negative and positive bacteria were submitted to amplification with a pair of primers Xf-1/REP 2 to verify its specificity. A fragment, about 350 bp, was amplified only when the DNA from strains of X. fastidiosa isolated from grapes was employed.