Abstract
Strawberry (Fragaria × ananassa) is an economically important crop in China, and a crucial part of urban agriculture in Beijing. In November 2020, wilt symptoms were observed in strawberry seedlings in several greenhouses in the Pinggu District of Beijing city (40.14° N; 117.12° E). The average disease incidence was 20%. Water-soaked lesions appeared along the veins of diseased strawberry leaves and bacterial ooze was also present on severely affected leaves. Bisected crowns had a reddish-brown discoloration in the xylem which later turned black. Three diseased strawberry seedlings were collected for pathogen identification. Isolations were conducted from stem, crown, leaf, and roots of diseased strawberry plants. Samples were surface sterilized by immersion in 70% ethanol for 30 s and rinsed three times with sterile distilled water, before being placed on potato dextrose agar (PDA) medium and incubated at 28℃. Several bacterial colonies grew on the medium after 24 h. Colonies were then purified on Lysogeny broth (LB) agar plates using the streak plate method. Twenty-nine isolates were obtained from 36 diseased tissue samples, which were from stem(10), crown(12), leaf(2) and roots(5) separately. All isolates appeared white, round, opaque and smooth on LB plates. To identify the isolates, genomic DNA was extracted from nine purified bacterial colonies (CM1 to CM9). The fragments of atpD, gyrB, infB and rpoB gene were amplified and sequenced with primers atpD 01-F/ atpD 02-R, gyrB 01-F/ gyrB 02-R, and infB 01-F/ infB 02-R (Brady et al. 2008) and RpoB-F/ RpoB-R (Mollet et al. 1997), respectively. All atpD, gyrB, infB and rpoB sequences belonging to the isolates were identical. The sequences of atpD, gyrB, infB and rpoB gene of isolates CM1 and CM3 were deposited in GenBank under accession numbers ON055247, ON055248, ON055249, ON055250, ON055251, ON055252, OL771192 and OL771193. BLAST searches were conducted with the sequences of atpD, gyrB, infB and rpoB. The atpD, gyrB, infB and rpoB sequences of the obtained isolate showed 99.53%, 99.06%, 99.19% and 99.80% identity with the corresponding sequences of Enterobacter mori strains, respectively. Phylogenetic analysis was performed using the maximum likelihood (ML) method with the CIPRES Science Gateway platform (http://www.phylo.org/) based on the combined atpD, gyrB, infB and rpoB sequences (Brady et al. 2013; Palmer et al. 2018). In the phylogenetic tree, the isolates were clustered together with E. mori strain LMG 25706. To confirm the pathogenicity, 200 μL of bacterial suspensions (108 CFU/mL) of the two isolates were injected into the crown of six healthy Fragaria × ananassa cv. Bennihope strawberry seedlings respectively with 1 mL sterilized syringe, and the control seedlings were injected with sterile water. The seedlings were kept in a moist chamber (28°C, 16-h light and 8-h dark period) for 2 days. Then all the seedlings were transferred to the greenhouse with conditions similar to those where the diseased plants were collected. Forty days after inoculation, old leaves started to wilt and leaf midvein necrosis, along with xylem discoloration, was observed in inoculated plants. No symptoms were observed in the control group. Pathogenicity tests were conducted three times with similar results. The bacteria were re-isolated from the symptomatic diseased strawberry plants and confirmed as E. mori by morphological and sequence analyses as above, fulfilling Koch's postulates. To the best of our knowledge, this is the first report of strawberry bacterial wilt caused by E. mori. Due to the significant crop loss from this disease, more research is needed in epidemiology and disease management.
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