First Report of Pectobacterium brasiliense Causing Bacterial Blackleg and Soft Rot of Potato in Pennsylvania.

Potato (Solanum tuberosum) plants showing blackleg and soft rot symptoms were collected at a commercial vegetable farm near Newmanstown, PA in August 2021 (Fig. S1). The incidence of potato blackleg in the unirrigated field was about 5 to 8%, but approximately 30% in the irrigated field. The diseased stems were cut into 5 cm and surface disinfected. The stem segments were placed into a 50-mL tube containing 15 mL of sterile water for 15 min for bacterial release. The bacterial suspension was streaked on crystal violet polypectate (CVP) (Hélias et al. 2012) plates and incubated at 28°C for 48 h. Three single colonies produced pits on CVP were picked and purified. Genomic DNA of all three isolates were extracted using the FastDNA Spin Kit (MP Biomedicals, Santa Ana, CA). Polymerase chain reaction (PCR) was performed using all three extracted DNAs as a template with the primer pairs gapA 7F/938R (Cigna et al. 2017), recA F/R (Waleron et al. 2001), dnaA F/R (Schneider et al. 2011) and dnaX F/R (Slawiak et al. 2009) targeting the gapA, recA, dnaA and dnaX genes, respectively. Isolate 21PA01 was further studied as a representative isolate. PCR amplicons derived from both forward and reverse primers were sequenced and analyzed using the BLAST algorithm against the NCBI database (https://www.ncbi.nlm.nih.gov). The regions of gapA (GenBank accession No. ON989738), recA (ON989739), dnaA (OP121183), and dnaX (OP121184) had 99.86%, 100%, 98.88%, and 100% identities with Pectobacterium brasiliense strains S1.16.01.3M (MN167062.1), BL-2 (MW721598.1), IPO:4132 (CP059956.1), and BL-2 (MW721603.1), respectively. A phylogenetic maximum-likelihood tree of the concatenated genes with the length of 2551 bp was constructed to visualize the relationship among different species of Dickeya and Pectobacterium. As a result, 21PA01 was in a single monophyletic cluster with other Pectobacterium brasiliense reference strains (Fig. S2 C). To confirm the pathogen, Koch's postulates were performed. Seed pieces of potato 'Lamoka' were planted in potting mix in one-gallon plastic pots in a greenhouse. Three weeks after emergence, the stems of three plants were each injected with 10 µL of bacteria suspension of either 21PA01 at 107 CFU/mL, P. parmentieri ME175 in tryptic soy broth (TSB) at 107 CFU/mL or TSB at 2 cm above the soil line. Seven days after inoculation, stems inoculated with 21PA01 and ME175 showed black and rotten symptoms, whereas the TSB-injected control plants remained symptomless. In addition, 'Lamoka' tubers were inoculated by placing 10 µL 21PA01 and ME175 suspensions at 107 CFU/mL, and TSB in a 1-cm-deep hole poked in a tuber separately and then sealed with petroleum gel, followed by incubation in a moist chamber at 22 °C for 4 d. The 21PA01 and ME175 inoculated tubers showed soft rot symptoms, but the TSB treatment had no symptoms. Bacterial colonies were isolated from the infected stems and confirmed by the DNA sequences as described above. PCR result was negative on control plant samples. Both stem and tuber inoculation trials were repeated two times, and the results were consistent. Thus, 21PA01 was identified as Pectobacterium brasiliense. To our knowledge, this is the first report of P. brasiliense infecting potatoes in Pennsylvania, USA, although it has been reported somewhere else (van der Merwe et al. 2010, Zhao et al. 2018). This could be a new species in Northeastern US.

Pseudomonas syringae pv. tomato DC3000 Type III Secretion Effector Polymutants Reveal an Interplay between HopAD1 and AvrPtoB.

The bacterial pathogen Pseudomonas syringae pv. tomato DC3000 suppresses the two-tiered plant innate immune system by injecting a complex repertoire of type III secretion effector (T3E) proteins. Beyond redundancy and interplay, individual T3Es may interact with multiple immunity-associated proteins, rendering their analysis challenging. We constructed a Pst DC3000 polymutant lacking all 36 T3Es and restored individual T3Es or their mutants to explore the interplay among T3Es. The weakly expressed T3E HopAD1 was sufficient to elicit immunity-associated cell death in Nicotiana benthamiana. HopAD1-induced cell death was suppressed partially by native AvrPtoB and completely by AvrPtoBM3, which has mutations disrupting its E3 ubiquitin ligase domain and two known domains for interacting with immunity-associated kinases. AvrPtoBM3 also gained the ability to interact with the immunity-kinase MKK2, which is required for HopAD1-dependent cell death. Thus, AvrPtoB has alternative, competing mechanisms for suppressing effector-triggered plant immunity. This approach allows the deconvolution of individual T3E activities.

Pseudomonas syringae pv. tomato DC3000 CmaL (PSPTO4723), a DUF1330 family member, is needed to produce L-allo-isoleucine, a precursor for the phytotoxin coronatine.

Pseudomonas syringae pv. tomato DC3000 produces the phytotoxin coronatine, a major determinant of the leaf chlorosis associated with DC3000 pathogenesis. The DC3000 PSPTO4723 (cmaL) gene is located in a genomic region encoding type III effectors; however, it promotes chlorosis in the model plant Nicotiana benthamiana in a manner independent of type III secretion. Coronatine is produced by the ligation of two moieties, coronafacic acid (CFA) and coronamic acid (CMA), which are produced by biosynthetic pathways encoded in separate operons. Cross-feeding experiments, performed in N. benthamiana with cfa, cma, and cmaL mutants, implicate CmaL in CMA production. Furthermore, analysis of bacterial supernatants under coronatine-inducing conditions revealed that mutants lacking either the cma operon or cmaL accumulate CFA rather than coronatine, supporting a role for CmaL in the regulation or biosynthesis of CMA. CmaL does not appear to regulate CMA production, since the expression of proteins with known roles in CMA production is unaltered in cmaL mutants. Rather, CmaL is needed for the first step in CMA synthesis, as evidenced by the fact that wild-type levels of coronatine production are restored to a ΔcmaL mutant when it is supplemented with 50 µg/ml l-allo-isoleucine, the starting unit for CMA production. cmaL is found in all other sequenced P. syringae strains with coronatine biosynthesis genes. This characterization of CmaL identifies a critical missing factor in coronatine production and provides a foundation for further investigation of a member of the widespread DUF1330 protein family.

Regulons of three Pseudomonas syringae pv. tomato DC3000 iron starvation sigma factors.

Pseudomonas syringae pv. tomato DC3000 contains genes for 15 sigma factors. The majority are members of the extracytoplasmic function class of sigma factors, including five that belong to the iron starvation subgroup. In this study, we identified the genes controlled by three iron starvation sigma factors. Their regulons are composed of a small number of genes likely to be involved in iron uptake.