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Lipid Droplets in Endosymbiotic Symbiodiniaceae spp. Associated with Corals.

Buntora PasaribuNoir Primadona PurbaLantun Paradhita DewantiDaniel PasaribuAlexander Muhammad Akbar KhanSyawaludin Alisyahbana HarahapMega Laksmini SyamsuddinYudi Nurul IhsanSofyan Husein SiregarIbnu FaizalTitin HerawatiMohammad IrfanTimbul Partogi Haposan SimorangkirTonni Agustiono Kurniawan
Published in: Plants (Basel, Switzerland) (2024)
Symbiodiniaceae species is a dinoflagellate that plays a crucial role in maintaining the symbiotic mutualism of reef-building corals in the ocean. Reef-building corals, as hosts, provide the nutrition and habitat to endosymbiotic Symbiodiniaceae species and Symbiodiniaceae species transfer the fixed carbon to the corals for growth. Environmental stress is one of the factors impacting the physiology and metabolism of the corals-dinoflagellate association. The environmental stress triggers the metabolic changes in Symbiodiniaceae species resulting in an increase in the production of survival organelles related to storage components such as lipid droplets (LD). LDs are found as unique organelles, mainly composed of triacylglycerols surrounded by phospholipids embedded with some proteins. To date, it has been reported that investigation of lipid droplets significantly present in animals and plants led to the understanding that lipid droplets play a key role in lipid storage and transport. The major challenge of investigating endosymbiotic Symbiodiniaceae species lies in overcoming the strategies in isolating lesser lipid droplets present in its intercellular cells. Here, we review the most recent highlights of LD research in endosymbiotic Symbiodiniaceae species particularly focusing on LD biogenesis, mechanism, and major lipid droplet proteins. Moreover, to comprehend potential novel ways of energy storage in the symbiotic interaction between endosymbiotic Symbiodiniaceae species and its host, we also emphasize recent emerging environmental factors such as temperature, ocean acidification, and nutrient impacting the accumulation of lipid droplets in endosymbiotic Symbiodiniaceae species.
Keyphrases
  • fatty acid
  • genetic diversity
  • physical activity
  • induced apoptosis
  • oxidative stress
  • climate change
  • drug induced