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Increasing activity of the GS-GOGAT cycle highlights the compensation of N-assimilation in the absence of nitrogen and its metabolic effects in cyanobacteria

Rayakorn Yutthanasirikul, Pavinee Kurdrid, Sirilak Saree, Jittisak Senachak, Monpaveekorn Saelee, Apiradee Hongsthong

2024Algal Research24 citationsDOI

Topics & Concepts

Glutamine synthetaseBiochemistryPhotosynthesisGlutamate synthaseBiosynthesisNitrogen assimilationCyanobacteriaFatty acidBiologyFatty acid synthaseFatty acid metabolismEnzymeChemistryGlutamineAmino acidBacteriaGeneticsPhotosynthetic Processes and MechanismsAlgal biology and biofuel productionMicrobial Community Ecology and Physiology
Increasing activity of the GS-GOGAT cycle highlights the compensation of N-assimilation in the absence of nitrogen and its metabolic effects in cyanobacteria | Litcius