In vivo mapping of a dynamic ribonucleoprotein granule interactome in early embryos
AUTHORS
Zheng
JJimiao ,
Gao
MMing ,
Huynh
NNhan ,
Tindell
SJSamuel J ,
Vo
HDHieu D L ,
McDonald
WHW Hayes ,
Arkov
ALAlexey L .
FEBS open bio. 2016 10 25; 6(12).
1248-1256
- PMID: 28203524[PubMed].
- PMCID: PMC5302063.
ABSTRACT
Macromolecular complexes and organelles play crucial roles within cells, but their native architectures are often unknown. Here, we use an evolutionarily conserved germline organelle, the germ granule, as a paradigm. In embryos, we map one of its interactomes using a novel crosslinking approach that employs two interacting granule proteins and determines their common neighbor molecules. We identified an granule assembly of Tudor, Aubergine, motor and metabolic proteins, and RNA helicases, and provide evidence for direct interactions within this assembly using purified components. Our study indicates that germ granules contain efficient biochemical reactors involved in post-transcriptional gene regulation.