Phytoplasmas are small bacterial parasites that lack cell walls and are transmitted in a persistent-propagative manner by insect vectors. However, detailed multiplication patterns and movements of phytoplasmas within host plant and insect vector remain elusive. In this study, a specific antibody against the immunodominant membrane protein (Imp) of rice orange leaf phytoplasma (ROLP) was generated and subjected to the frozen section immune gold labeling assay, immune gold labeling microscopy, and immune fluorescence labeling assay to investigate how ROLP enters, propagates, and spreads in rice and its leafhopper vector Recilia dorsalis at the ultrastructural level. During acquisition and transmission by insect vectors, ROLPs could squeeze and penetrate the multiple membrane/tissue barriers such as microvilli, apical plasmalemma, and basal lamina in the intestines or salivary glands by endocytosis- and exocytosis-like mechanism. Furthermore, ROLP infection is restricted to the type IV and V cells of salivary glands. In contrast to the classical binary fission used by most bacteria, electron microscopy reveals that ROLP exploits an asymmetrical budding strategy to replicate in plant hosts and insect vectors. In this process, a cellular protrusion of ROLP forms a bud to reproduce the offspring by fission at the junction between the bud and the ROLP main body. These results clarify the infection characteristics of ROLP in rice and R. dorsalis, which will help guide the formulation of ROLP prevention and control strategies.
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