Summary
Citrus huanglongbing (HLB) is the most devastating citrus disease worldwide. ‘
Candidatus
Liberibacter asiaticus’ (Las) is the most prevalent HLB causal agent that is yet to be cultured. Here, we analysed the flagellar genes of Las and
Rhizobiaceae
and observed two characteristics unique to the flagellar proteins of Las: (i) a shorter primary structure of the rod capping protein FlgJ than other
Rhizobiaceae
bacteria and (ii) Las contains only one flagellin‐encoding gene
flaA
(CLIBASIA_02090), whereas other
Rhizobiaceae
species carry at least three flagellin‐encoding genes. Only
flgJ
Atu
but not
flgJ
Las
restored the swimming motility of
Agrobacterium tumefaciens flgJ
mutant. Pull‐down assays demonstrated that FlgJ
Las
interacts with FlgB but not with FliE. Ectopic expression of
flaA
Las
in
A. tumefaciens
mutants restored the swimming motility of ∆
flaA
mutant and ∆
flaAD
mutant, but not that of the null mutant ∆
flaABCD
. No flagellum was observed for Las in citrus and dodder. The expression of flagellar genes was higher in psyllids than
in planta
. In addition, western blotting using flagellin‐specific antibody indicates that Las expresses flagellin protein in psyllids, but not
in planta
. The flagellar features of Las
in planta
suggest that Las movement in the phloem is not mediated by flagella. We also characterized the movement of Las after psyllid transmission into young flush. Our data support a model that Las remains inside young flush after psyllid transmission and before the flush matures. The delayed movement of Las out of young flush after psyllid transmission provides opportunities for targeted treatment of young flush for HLB control.