PREreviews of Bacterial RNA promotes proteostasis through inter-tissue communication inC. elegans

3 PREreviews

1. PREreview by Lang Ding of the HHMI Transparent and Accountable Peer Review Training Pilot

   Authored by Lang Ding of the HHMI Transparent and Accountable Peer Review Training Pilot

   The manuscript demonstrates that dietary RNAs from bacteria can have a systemic, beneficial impact on the healthspan of C. elegans by reducing protein aggregation through a mechanism involving systemic autophagy, ribonuclease-dependent bacterial-RNA species, RNAi machinery and the germline, and…

   Read the PREreview by Lang Ding of the HHMI Transparent and Accountable Peer Review Training Pilot

2. PREreview by Youchen Guan of the HHMI Transparent and Accountable Peer Review Training Pilot

   Authored by Youchen Guan of the HHMI Transparent and Accountable Peer Review Training Pilot

   This study investigates the role of bacterial RNA in promoting proteostasis in C. elegans, demonstrating that dietary RNA species derived from bacteria can reduce protein aggregation in muscle cells. It was shown that this effect is dependent on RNAi machinery and inter-organ communication between…

   Read the PREreview by Youchen Guan of the HHMI Transparent and Accountable Peer Review Training Pilot

3. PREreview by Youchen Guan

   Authored by Youchen Guan

   This study investigates the role of bacterial RNA in promoting proteostasis in C. elegans, demonstrating that dietary RNA species derived from bacteria can reduce protein aggregation in muscle cells. It was shown that this effect depends on RNAi machinery and inter-organ communication between the…

   Read the PREreview by Youchen Guan