Litcius/Paper detail

Active reconfiguration of cytoplasmic lipid droplets governs migration of nutrient-limited phytoplankton

Anupam Sengupta, Jayabrata Dhar, Francesco Danza, Arkajyoti Ghoshal, Sarah Müller, Narges Kakavand

2022Science Advances18 citationsDOIOpen Access PDF

Abstract

Nutrient availability, along with light and temperature, drives marine primary production. The ability to migrate vertically, a critical trait of motile phytoplankton, allows species to optimize nutrient uptake, storage, and growth. However, this traditional view discounts the possibility that migration in nutrient-limited waters may be actively modulated by the emergence of energy-storing organelles. Here, we report that bloom-forming raphidophytes harness energy-storing cytoplasmic lipid droplets (LDs) to biomechanically regulate vertical migration in nutrient-limited settings. LDs grow and translocate directionally within the cytoplasm, steering strain-specific shifts in the speed, trajectory, and stability of swimming cells. Nutrient reincorporation restores their swimming traits, mediated by an active reconfiguration of LD size and coordinates. A mathematical model of cell mechanics establishes the mechanistic coupling between intracellular changes and emergent migratory behavior. Amenable to the associated photophysiology, LD-governed behavioral shift highlights an exquisite microbial strategy toward niche expansion and resource optimization in nutrient-limited oceans.

Topics & Concepts

NutrientOrganelleCytoplasmPhytoplanktonLipid dropletCompartment (ship)BiologyControl reconfigurationBiophysicsEcologyCell biologyOceanographyComputer scienceGeologyEmbedded systemMarine and coastal ecosystemsMicro and Nano RoboticsAlgal biology and biofuel production