Me31B is a protein component of Drosophila germ granules and plays an important role in germline development by interacting with other proteins and RNAs. To understand the dynamic changes that the Me31B interactome undergoes from oogenesis to early embryogenesis, we characterized the early embryo Me31B interactome and compared it to the known ovary interactome. The two interactomes shared RNA regulation proteins, glycolytic enzymes, and cytoskeleton/motor proteins, but the core germ plasm proteins Vas, Tud, and Aub were significantly decreased in the embryo interactome. Our follow-up on two RNA regulations proteins present in both interactomes, Tral and Cup, revealed that they colocalize with Me31B in nuage granules, P-bodies/sponge bodies, and possibly in germ plasm granules. We further show that Tral and Cup are both needed for maintaining Me31B protein level and mRNA stability, with Tral's effect being more specific. In addition, we provide evidence that Me31B likely colocalizes and interacts with germ plasm marker Vas in the ovaries and early embryo germ granules. Finally, we show that Me31B's localization in germ plasm is likely independent of the Osk-Vas-Tud-Aub germ plasm assembly pathway although its proper enrichment in the germ plasm may still rely on certain conserved germ plasm proteins. Germ cells are essential for sexual reproduction and the survival of many species, and species-specific strategies exist to form germ cells 1-5. Drosophila melanogaster uses maternally inherited germ granules to determine germ cell fate. Germ granules are heterogeneous aggregates of ribonucleoprotein (RNP) complexes 6 that undergo dynamic positional, morphological, and compositional changes during germline development, a process that spans oogenesis and early embryogenesis 7-11. Me31B, a conserved germ granule component 9,12 , is expressed in nurse cells, oocytes, and early embryos 13. In these cells, Me31B exists in different types of RNP granules, including nuage granules, P-bodies, sponge bodies, and germ plasm granules 12-15. In these granules, Me31B has been suggested to function as a putative ATP-dependent RNA helicase that interacts with other germline proteins and RNAs to exert post-transcriptional regulation on those RNAs 10,11,13,16,17. As an important example, Me31B associates with osk mRNA to ensure its proper translation into Osk protein only at the posterior pole of developing oocytes. Then, the Osk protein initiates a step-wise assembly pathway that recruits downstream proteins including Vas, Tud, and Aub to form the germ plasm and eventually dictates germ cell formation 13,18-21. Me31B exhibits changes in its localization pattern, aggregation status, and even function as germline cells develop during the ovary-to-embryo transition 13,17. It is believed that these changes are correlated with the different biological contexts in which Me31B exists 17. Therefore, to understand the role of Me31B during germ
