Abstract

Some members of the fungal genus Trichoderma are able to colonize and destroy sclerotia, the thick-walled resting structures of the soilborne plant pathogenic fungus Sclerotinia sclerotiorum, thus providing a potential means of biological disease control. However, current methods to detect and quantify colonization of sclerotia are labor-intensive, and generally qualitative rather than quantitative in nature. Our objective was to develop quantitative real-time PCR (polymerase chain reaction) methods to detect and measure colonization of sclerotia by Trichoderma spp. Specific PCR primer/probe sets were developed for Trichoderma spp. and for S. sclerotiorum. A total of 180 ITS1 (internal transcribed spacer) and ITS2 sequences from different species in the genus Trichoderma were aligned, and consensus sequences were determined. Six candidate primer sets were based on conserved regions of the consensus sequence, and the specificity of each nucleotide sequence was examined using BLAST (Basic Local Alignment Search Tool; NCBI) software. Each candidate primer set was tested on genomic DNA of T. harzianum strain ThzID1-M3, as well as six different Trichoderma isolates from soil, and on genomic DNA of S. sclerotiorum. The optimum primer/probe set selected, TGP4, successfully amplified genomic DNA of all Trichoderma isolates tested, and showed high precision and reproducibility over a linear range of eight orders of magnitude, from 85 ng to 8.5 fg of T. harzianum genomic DNA. TGP4 did not amplify S. sclerotiorum DNA. A specific PCR primer/probe set (TMSCL2) was developed for S. sclerotiorum, based on the calmodulin gene sequence. TMSCL2 did not amplify Trichoderma DNA. Quantitative real-time PCR with the primers then was evaluated in experiments to test differential effects of two soil moisture levels (−50 kPa, −1000 kPa matric potential) on biocontrol of S. sclerotiorum by indigenous Trichoderma spp. Periodically over 40 days, Trichoderma and S. sclerotiorum DNA in sclerotia were quantified by PCR with appropriate primers. Over 90% of the sclerotia were colonized by indigenous Trichoderma spp. at −1000 kPa, over the 40-day period, compared to only 60% at −50 kPa. In addition to determining incidence of colonization, the PCR method allowed measurement of the extent of sclerotial colonization, which also was significantly greater in the drier soil. Quantitative real-time PCR with the TGP4 primer/probe set provides a sensitive detection and measurement tool to evaluate colonization of sclerotia by Trichoderma spp.

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