Litcius/Paper detail

Systems acclimation to osmotic stress in zygnematophyte cells

Jaccoline M. S. Zegers, Lukáš Pfeifer, Tatyana Darienko, Kerstin Schmitt, Craig A Dorsch, Cäcilia F. Kunz, Gerhard H. Braus, Birgit Classen, Oliver Valerius, Jan de Vries

2026Nature Communications6 citationsDOIOpen Access PDF

Abstract

Zygnematophytes are the closest algal relatives of land plants. They hold key information to infer how the earliest land plants overcame the barrage of terrestrial stressors, the prime of which is osmotic stress. Here, we apply two osmotic stressors on a unicellular and a multicellular representative of zygnematophytes and study their responses over a 25-hour time course, generating 130, 60, and 30 transcriptomic, proteomic, and metabolomic samples combined with photophysiology, sugar analysis, immunocytochemical glycoprotein analysis, and microscopy. Our data highlight a shared protein chassis that shows divergent responses with the same outcome: successful acclimation to osmotic challenges. We establish a model of how the algal sisters of land plants can overcome a prime stressor in the terrestrial habitat and highlight components of the plant terrestrialization toolkit.

Topics & Concepts

Osmotic shockAcclimatizationOsmotic pressureBiologyMulticellular organismEcologySugarStressorKey (lock)Cell biologyHabitatChemistryOsmosisBotanyPrime (order theory)Plant cellBiocrusts and Microbial EcologyPhotosynthetic Processes and MechanismsPlant responses to water stress