Abstract
Many plant-pathogenic xanthomonads use a type III secretion system to translocate Transcription Activator-Like (TAL) effectors into eukaryotic host cells where they act as transcription factors. Target genes are induced upon binding of a TAL effector to double-stranded DNA in a sequence-specific manner. DNA binding is governed by a highly repetitive protein domain, which consists of an array of nearly identical repeats of ca. 102 base pairs. Many species and pathovars of Xanthomonas, including pathogens of rice, cereals, cassava, citrus and cotton, encode multiple TAL effectors in their genomes. Some of the TAL effectors have been shown to act as key pathogenicity factors, which induce the expression of susceptibility genes to the benefit of the pathogen. However, due to the repetitive character and the presence of multiple gene copies, high-throughput cloning of TAL effector genes remains a challenge. In order to isolate complete TAL effector gene repertoires, we developed an enrichment cloning strategy based on•genome-informed in silico optimization of restriction digestions,•selective restriction digestion of genomic DNA, and•size fractionation of DNA fragments.Our rapid, cheap and powerful method allows efficient cloning of TAL effector genes from xanthomonads, as demonstrated for two rice-pathogenic strains of Xanthomonas oryzae from Africa.
Highlights
A few tal genes were isolated from African strains of Xanthomonas oryzae
Only tal5 from MAI1 and talC from BAI3 have been characterized as major virulence Transcription Activator-Like (TAL) effectors [1,2]
Using BioEdit, we identified 54 restriction enzymes that would not cleave in any of 71 tal gene BamHI fragments from X. oryzae that were retrieved from GenBank
Summary
A few tal genes were isolated from African strains of Xanthomonas oryzae. Size-fractionated BamHI fragments (1.5–7.5 kb), covering most of the tal gene sequence, were cloned into pUC19, followed by transformation into Escherichia coli. Complete combinatorial digestion of genomic DNA with BamHI and two additional frequent cutters for counterselection, followed by size fractionation of DNA fragments allows rapid, cheap and efficient cloning of tal gene BamHI fragments from xanthomonads, as demonstrated with two African strains of X. oryzae.
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