Viral Chemotaxis of Paramecium Bursaria Altered by Algal Endosymbionts

Chemotaxis is widespread across many taxa and often aids resource acquisition or predator avoidance. Species interactions can modify the degree of movement facilitated by chemotaxis. In this study, we investigated the influence of symbionts on Paramecium bursaria's chemotactic behavior toward chloroviruses. To achieve this, we performed choice experiments using chlorovirus and control candidate attractors (virus stabilization buffer and pond water). We quantified the movement of Paramecia grown with or without algal and viral symbionts toward each attractor. All Paramecia showed some chemotaxis toward viruses, but cells without algae and viruses showed the most movement toward viruses. Thus, the endosymbiotic algae (zoochlorellae) appeared to alter the movement of Paramecia toward chloroviruses, but it was not clear that ectosymbiotic viruses (chlorovirus) also had this effect. The change in behavior was consistent with a change in swimming speed, but a change in attraction remains possible. The potential costs and benefits of chemotactic movement toward chloroviruses for either the Paramecia hosts or its symbionts remain unclear.

Automated summary

This study investigates the influence of symbionts on Paramecium bursaria's chemotactic behavior towards chloroviruses, finding that the endosymbiotic algae can alter the movement of Paramecia towards chloroviruses. However, it remains unclear whether the ectosymbiotic viruses also have the same effect. The potential costs and benefits of chemotactic movement towards chloroviruses for either the Paramecia hosts or its symbionts are still unclear.