Starvation-induced autophagy occurs independently of the ATG1 complex in Chlamydomonas

The survival of eukaryotes during starvation depends on effective nutrient recycling via autophagy. Accordingly, loss of autophagy-related (ATG) proteins, including the nutrient-sensing ATG1 kinase complex, typically results in reduced fitness or lethality under nutrient limitation. The green alga Chlamydomonas reinhardtii provides a tractable model for autophagy studies, as its ATG repertoire is encoded by single-copy genes. Here, we generated a comprehensive library of ATG deletion mutants and examined their growth and autophagy during starvation. Surprisingly, starvation-induced autophagy occurred in the absence of ATG1 complex components (ATG1, ATG11, ATG13, and ATG101), revealing ATG1-independent autophagy and challenging the canonical model for autophagy initiation.