RNA-Seq Analysis Discovers the Critical Role of Rel in ppGpp Synthesis, Pathogenicity, and the VBNC State of Clavibacter michiganensis
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The viable but nonculturable (VBNC) state is a unique survival strategy of bacteria in response to stress conditions. It was confirmed that Clavibacter michiganensis, the causal agent of bacterial canker in tomato, could be induced into the VBNC state by exposure to CuSO4 in an oligotrophic solution. RNA-sequencing analysis was used to monitor the mechanisms of the VBNC state during CuSO4 induction in C. michiganensis. The results identified that numerous genes involved in stringent response, copper resistance, and stress resistance were upregulated, and some involved in cell division were downregulated significantly. The study investigated the importance of Rel, which is an essential enzyme in the synthesis of the molecular alarmone ppGpp, via the generation of a Δrel mutant and its complementation strain. Biological characterization revealed that deficiency of rel reduced the bacterial growth, production of exopolysaccharides, and pathogenicity as well as ppGpp production. The Δrel mutant increased the sensitivity to environmental stress, exhibiting reduced growth on minimal media and a propensity to enter the VBNC state in response to CuSO4. These findings have important implications for the understanding of survival mechanism and management of C. michiganensis and other phytopathogenic bacteria.Keywords:
Clavibacter michiganensis
Stringent response
Viable but nonculturable
The viable but nonculturable (VBNC) state is a unique survival strategy of bacteria in response to stress conditions. It was confirmed that Clavibacter michiganensis, the causal agent of bacterial canker in tomato, could be induced into the VBNC state by exposure to CuSO4 in an oligotrophic solution. RNA-sequencing analysis was used to monitor the mechanisms of the VBNC state during CuSO4 induction in C. michiganensis. The results identified that numerous genes involved in stringent response, copper resistance, and stress resistance were upregulated, and some involved in cell division were downregulated significantly. The study investigated the importance of Rel, which is an essential enzyme in the synthesis of the molecular alarmone ppGpp, via the generation of a Δrel mutant and its complementation strain. Biological characterization revealed that deficiency of rel reduced the bacterial growth, production of exopolysaccharides, and pathogenicity as well as ppGpp production. The Δrel mutant increased the sensitivity to environmental stress, exhibiting reduced growth on minimal media and a propensity to enter the VBNC state in response to CuSO4. These findings have important implications for the understanding of survival mechanism and management of C. michiganensis and other phytopathogenic bacteria.
Clavibacter michiganensis
Stringent response
Viable but nonculturable
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Amber mutants of bacteriophage BF23 were classified into two functional groups, types I and II, by the yields of the infecting-mutant genotypes in plate complementation tests. Type I mutants produced their genotypes at levels more than 20% of the total progeny phages, and type II mutants did so at levels of less than 5%. Comparison of the results of plate complementation tests with those of extract complementation tests revealed that all the type I mutants were defective in the tail formation, while most type II mutants were defective in the formation of either mature heads (type IIa) or both mature heads and tails (type IIb). Since in extract complementation tests the activated phages are always of genotypes corresponding to mutations defective in only the tail formation, the plate complementation test is comparable with the extract complementation test when judged on the basis of the yield of the mutant genotypes. Of 29 complementation groups, 8 type I, 14 type IIa, and 5 type IIb mutants were identified. Previously, amber mutations of BF23 were mapped on four genetic segments. These segments were ordered in one linkage map by crosses between deletion and amber mutants.
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A very low level of complementation has been found in conventional crosses between various classes of temperature-sensitive (ts) mutants of reovirus. A more definitive test for complementation was devised through a plaque assay on cell monolayers mixedly infected with defective reovirions lacking the L1 segment and prototype ts mutants from one or other of the known classes of reovirus mutants. An increase in the number of plaques on the mixedly infected plates over that on control plates infected with defective virions or ts mutants alone indicated that the ts mutant had been complemented by the defective virus. Class A, B, D, F, and G mutants were complemented at 39 C by the defective viruses, whereas class C and E mutants were not. In tests to determine whether complementation was reciprocal it was found that the defective virions were complemented by a class G mutant but not by the class C mutant. This and previous work (D.A. Spandidos and A. F. Graham, 1975) has therefore shown that of the seven known classes of ts mutants the class C mutant is the only one that neither complements nor is complemented by the defective virions. For this reason the class C ts mutation has been assigned to the L1 segment of the viral genome.
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Bacterial canker of tomato is an economically important seedborne disease caused by Clavibacter michiganensis subsp. michiganensis (Cmm). Copper‐based bactericides and seed treatment with hydrochloric acid are commonly used for bacterial canker management. Recent studies have shown that some bacteria can enter a viable but nonculturable ( VBNC ) state, and fail to form colonies on microbiological agar media. Bacteria in the VBNC state can recover their culturability when returned to favourable conditions. This study reports the induction of the VBNC state in Cmm by CuSO 4 and low pH, and resuscitation of VBNC cells on tomato seedlings. Flow cytometry using the nucleic acid dyes SYTO 9 and propidium iodide, combined with agar plating, was used to assess VBNC cell counts. It was demonstrated that CuSO 4 and low pH induced the VBNC state in Cmm and the rate of induction increased with copper ion concentration and acidity. Pathogenicity tests showed that some of the VBNC cells induced by CuSO 4 retained their ability to colonize tomato seedlings but failed to produce typical bacterial canker symptoms by 2 months post‐inoculation. This was probably due to low levels of resuscitation of VBNC Cmm cells resulting in low levels of initial inoculum. This study has improved understanding of the VBNC state of Gram‐positive phytopathogenic bacteria. Most importantly, because copper‐based chemicals and low pH conditions are used for disease management, induction of the VBNC state and subsequent resuscitation of Cmm cells on tomato seedlings may limit pathogen detection by culture‐based assays yet present a risk for disease development in the field.
Clavibacter michiganensis
Viable but nonculturable
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