Abstract
BackgroundSpiroplasma citri comprises a bacterial complex that cause diseases in citrus, horseradish, carrot, sesame, and also infects a wide array of ornamental and weed species. S. citri is transmitted in a persistent propagative manner by the beet leafhopper, Neoaliturus tenellus in North America and Circulifer haematoceps in the Mediterranean region. Leafhopper transmission and the pathogen’s wide host range serve as drivers of genetic diversity. This diversity was examined in silico by comparing the genome sequences of seven S. citri strains from the United States (BR12, CC-2, C5, C189, LB 319, BLH-13, and BLH-MB) collected from different hosts and times with other publicly available spiroplasmas.ResultsPhylogenetic analysis using 16S rRNA sequences from 39 spiroplasmas obtained from NCBI database showed that S. citri strains, along with S. kunkelii and S. phoeniceum, two other plant pathogenic spiroplasmas, formed a monophyletic group. To refine genetic relationships among S. citri strains, phylogenetic analyses with 863 core orthologous sequences were performed. Strains that clustered together were: CC-2 and C5; C189 and R8-A2; BR12, BLH-MB, BLH-13 and LB 319. Strain GII3–3X remained in a separate branch. Sequence rearrangements were observed among S. citri strains, predominantly in the center of the chromosome. One to nine plasmids were identified in the seven S. citri strains analyzed in this study. Plasmids were most abundant in strains isolated from the beet leafhopper, followed by strains from carrot, Chinese cabbage, horseradish, and citrus, respectively. All these S. citri strains contained one plasmid with high similarity to plasmid pSci6 from S. citri strain GII3–3X which is known to confer insect transmissibility. Additionally, 17 to 25 prophage-like elements were identified in these genomes, which may promote rearrangements and contribute to repetitive regions.ConclusionsThe genome of seven S. citri strains were found to contain a single circularized chromosome, ranging from 1.58 Mbp to 1.74 Mbp and 1597–2232 protein-coding genes. These strains possessed a plasmid similar to pSci6 from the GII3–3X strain associated with leafhopper transmission. Prophage sequences found in the S. citri genomes may contribute to the extension of its host range. These findings increase our understanding of S. citri genetic diversity.
Highlights
Spiroplasma citri comprises a bacterial complex that cause diseases in citrus, horseradish, carrot, sesame, and infects a wide array of ornamental and weed species
Prophage sequences found in the S. citri genomes may contribute to the extension of its host range
S. citri strains C189 and Liberty Bell (LB) 319 were isolated from the woody crop, citrus
Summary
Spiroplasma citri comprises a bacterial complex that cause diseases in citrus, horseradish, carrot, sesame, and infects a wide array of ornamental and weed species. S. citri is transmitted in a persistent propagative manner by the beet leafhopper, Neoaliturus tenellus in North America and Circulifer haematoceps in the Mediterranean region. Leafhopper transmission and the pathogen’s wide host range serve as drivers of genetic diversity. Plant pathogenic spiroplasmas cause economic damage to crops and ornamentals These pathogens include: Spiroplasma citri, causal agent of citrus stubborn disease (CSD) [4], brittle root of horseradish [5], and carrot purple leaf [6]; S. kunkelli, the causal agent of corn stunt [7]; and S. phoeniceum, isolated from periwinkle showing symptoms typical of mycoplasma-like organisms [8]. S. kunkelli is transmitted by Dalbulus maidis (DeLong) [7] and S. phoeniceum was experimentally transmitted by Macrosteles fascifrons (Stål) [8]
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