In late September 2019, seven stalks of about 1400 stalks of sugarcane cultivar Zhongzhe 1 exhibited soft rot symptoms in a trial plot in Beihai city, Guangxi province of China. Symptoms included scorched and collapsed leaves, maceration of stalks, and sour smelling exudates from the stalks (Supplementary Fig. S1). Severely diseased stalks had collapsed and were dead. Internal stalk fragments of 5 × 5 mm were collected at the junction of healthy and diseased tissue after surface-sterilization of stalks with 70% ethanol for one minute, and three times rinsing with sterile distilled water. Stalk fragments were placed on Luria–Bertani agar medium (1 % w/v tryptone, 0.5 % w/v yeast extract, 1 % w/v NaCl, 1 % w/v agar, pH7.0) and plates were put in an incubator at 30°C for 48h. Four types of bacterial colonies were obtained, and small and white colonies with irregular margins were the most dominant. A single colony of each type was diluted in sterile distilled water and aliquots of each suspension were streaked on fresh medium plates to obtain pure cultures. Ten eight-week-old stalks (11 th leaf stage) of sugarcane plants, which derived from cuttings of symptomless cultivar Zhongzhe 1, were inoculated by injection of 300 μl of bacterial suspension (3.5x108 CFU/ml) into the stalks. Another 10 stalks were injected with pure water and served as control. The inoculated plants were kept in a greenhouse at 25-37℃.Among the four types of bacteria, only strain BH9 induced symptoms that were identical to those of diseased canes observed in the field (Supplementary Fig. S1). Elongated water-soaked lesions were observed around the inoculation sites three days post inoculation. Five of the 10 BH9-inoculated plants had collapsed two days later. Water-soaked stalks had a sour smell similar to the filed diseased plants. Eight days post inoculation, all BH9-inoculated plants exhibited symptoms but control plants remained symptomless up to 30 days after inoculation. Uniform white colonies with irregular margins were isolated from the inoculated stalks that developed soft rot symptom, and these bacteria caused again stalk soft rot symptoms when inoculated to a new batch of 10 healthy plants. The 16S rRNA gene of strain BH9 was amplified by PCR with primer pair fD2/rP1 and the PCR amplicons from three independent colonies were sequenced. The sequences of the three amplicons were identical (Accession No. MT723897). BLAST alignments of the 16S rDNA sequence from BH9 strain with the GenBank database revealed that BH9 belonged to the genus Dickeya (98.5% identity between D. zeae BH9 and D. zeae EC1). Further PCR assays and sequencing of three genes, DNA polymerase III gamma subunit gene dnaX with primers dnaXf/dnaXr, DNA gyrase gene gyrB with primers gyrBf1/gyrBr1, and recombinase A gene recA with primers recAf/recAr, were performed to identify the species within the genus Dickeya (Zhang et al., 2014). BH9 sequences of these genes (Accession No. MT723898 to MT723900) had highest identity (97.5%, 97.6%, and 97.7%, respectively) with those from D. zeae EC1 (GenBank accession No. CP006929.1). To determine the evolutionary relationship of BH9 to other Dickeya species and strains, a phylogenetic analysis was performed using dnaX, gyrB, and recA sequences. As shown in Supplementary Fig. S2, BH9 clustered with D. zeae strains and formed a lineage distinguishable from other Dickeya species. Among the closest strains, D. zeae NCPPB3531 (Accession No. CM001980.1) was isolated from potato and D. zeae CSL RW192 (Accession No. CM001972.1) from river water (Pritchard et al., 2013). Consequently, strain BH9 was identified as D. zeae. This bacterial species has been reported to cause soft rot in rice (Pu et al., 2012), banana (Zhang et al., 2014), maize (Martinez-Cisneros et al., 2014), and clivia (Hu et al., 2018). To the best of our knowledge, this is the first report of a bacterial stalk rot caused by D. Zeae in sugarcane. In fact, low incidence of D. zeae-caused stalk soft rot was recently found in sugarcane fields in Fusui County, about 150 km north to Beihai. Given the potential threat of this disease to the local sugarcane industry, the mode of transmission, cultivar resistance, and measures to control the disease should be investigated.
Interaction between Dickeya dianthicola and Pectobacterium parmentieri in Potato Infection under Field Conditions
