HIGHLIGHTS
- who: ufeffMaru00edaufeff ufeffSantos-Merinoufeff from the Hubei University, China have published the research work: Highlighting the potential of ufeffSynechococcus elongatusufeff PCC 7942 as platform to produce u03b1-linolenic acid through an updated genome-scale metabolic modeling, in the Journal: (JOURNAL)
- what: Once demonstrated that the model was able to predict ALA production fluxes, the authors decided to explore in silico previously identified frontiersin.org 10.3389/fmicb.2023.1126030 genetic interventions that led to a decrease and an increase in ALA yield (i.e., fabH deletion and fabF overexpression, respectively) (Santos-Merino et_al, 2018). The . . .
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