Strains and plasmids
Wild-type F. oxysporum JLCC31768, which was isolated from patients with clinical infections in Jilin province, China, was used as the parent strain for transformations. Agrobacterium tumefaciens AGL-1 carrying the pBHT1 plasmid, A. tumefaciens Agr0, as well as the pEGFP-N3 and pXEH plasmids was used in this study. All strains are preserved in the Fungi Research Center of Jilin University.
Construction of the G418 resistance plasmid
The trpC promoter region in pBHT1 was amplified with the FtrpC-f and FtrpC-r primers. The neo fragment in pEGFP-N3 was amplified with the FNeor-f and FNeor-r primers. The FtrpC-f and FNeor-r primers were then used to generate the complete trpC promoter–neo expression cassette in a staggered extension process. The trpC promoter–neo sequence was amplified with the tRPCNf and tRPCNr primers, after which the amplicon was digested and linked to pXEH. The resulting pXEN recombinant plasmid was sequenced (Table 2) and then inserted into A. tumefaciens Agr0 cells to produce the AgrN strain.
ATMT of F. oxysporum
To determine the minimum inhibitory concentration of G418 against wild-type F. oxysporum, 100-μl conidia suspensions (1 × 104 CFU/ml) were treated with various G418 concentrations (0, 50, 100, 150, 200, 250, and 300 mg/ml) on PDA medium at 25 °C for 7 days. The minimum inhibitory concentration was determined based on whether the conidia germinated.
F.oxysporum was transformed according to an optimized version of a previously described method [10, 12]. A. tumefaciens AgrN cells carrying the pXEN plasmid were activated, collected, and resuspended in liquid induction medium containing 200 μM acetosyringone [10]. The optical density at 600 nm (OD600) of the medium was adjusted to 0.2–0.3. A pre-culture step was completed at 28 °C and 160 rpm until the OD600 reached 0.4, 0.6, 0.8, and 1.0. Additionally, PDA medium was inoculated with wild-type F. oxysporum and incubated at 25 ℃ for 5 days. Conidia were suspended in a saline solution for final concentrations of 103, 104, and 105 CFU/ml. An aseptic filter membrane was placed on the solid induction medium containing 200 µM acetosyringone. Equal volumes (1 ml) of the A. tumefaciens cells and F. oxysporum conidia were mixed, after which 200 μl was applied uniformly to the filter. After incubating at various temperatures (22, 25, and 28 °C) for different times (24, 36, 48, and 60 h), the filter membrane was transferred to the screening medium (PDA medium containing 200 µg/ml cefotaxime sodium and 100 µg/ml G418) to screen for mutants, while simultaneously inhibiting A. tumefaciens growth. The screening medium was incubated at 25 ℃ for 3–4 days until mutant colonies appeared.
Screening of phenotypic mutants
The center of Petri plates containing PDA medium was inoculated with the mutants. After incubating at 25 ℃ for 7 days, the colony morphology was analyzed.
Analysis of the genetic stability of the T-DNA insertion
The stability of the T-DNA insertion was assessed based on the G418 resistance of the mutants. Specifically, 15 randomly selected mutants were examined for the presence of the neo fragment via the amplification with the neoF and neoR primers (Table 2). The mutants were then cultured on PDA lacking G418 for 3 days. An inoculation needle was used to transfer mycelia from the colony edge to fresh PDA lacking G418 for another 3-day culture. After five rounds of inoculation, the mycelia were transferred to screening medium and the presence of the neo fragment was confirmed by PCR.
Analysis of the T-DNA flanking sequences
The putative mutants were added to PDB medium containing G418 (50 μg/ml) and cefotaxime sodium (200 μM) and then incubated at 25 °C with shaking (120 rpm) for 72 h. Genomic DNA was extracted from the cultured mutants [19], and used as the template for the amplification of the neo fragment to determine whether the T-DNA was inserted into the genome of these putative mutants.
The sequences flanking the inserted T-DNA in the mutant genomes were amplified by touchdown-TAIL PCR [16] (Table 2). The left and right arms of the T-DNA were amplified by two rounds of semi-nested PCR, sequenced, and aligned with the pXEN plasmid. The flanking sequence was compared with the F. oxysporum f. sp. lycopersici 4287 genome (GCF_000149955.1) to determine the insertion site.
Table 2
Details regarding the primers used in this study.
Primer name
|
Nucleotide sequence (5′ to 3′)
|
FtrpC-f
|
5′-CAGAAGATGATATTGAAGGAGCATTTTT-3′
|
FtrpC-r
|
5′-CTTGTTCAATCATATCGATATCGATGCTTCGGTAGAATA-3′
|
FNeor-f
|
5′-CATCGATATCGATATGATTGAACAAGATGGATTGCACGCA-3′
|
FNeor-r
|
5′-TTTATTCTGTCTTTTTATTGCCGTCATA-3′
|
tRPCNf
|
5′-CGGGGTACCCAGAAGATGATATTGAAGGAGC-3′(Kpn1 restriction site)
|
tRPCNr
|
5′-CGCGGATCCTTTATTCTGTCTTTTTATTGCC-3′(Bam H1 restriction site)
|
neoF
|
5′-ATCTCCTGTCATCTCACCTTGCTC-3′
|
neoR
|
5′-GTCTCCTTCCGTGTTTCAGTTAGC-3′
|
LB1
|
5′-GGGTTCCTATAGGGTTTCGCTCATG-3′
|
LB2
|
5′-CATGTGTTGAGCATATAAGAAACCCT-3′
|
LB3
|
5′-GAATTAATTCGGCGTTAATTCAGT-3′
|
RB1
|
5′-GGCACTGGCCGTCGTTTTACAAC-3′
|
RB2
|
5′-AACGTCGTGACTGGGAAAACCCT-3′
|
RB3
|
5′-CCCTTCCCAACAGTTGCGCA-3′
|
AD1
|
5′-TGAGNAGTANCAGAGA-3′
|
AD2
|
5′-AGTGNAGAANCAAAGG-3′
|
AD3
|
5′-CATCGNCNGANACGAA-3′
|
AD4
|
5′-CAAGCAAGCA-3′
|