Temporal control of RNAi reveals both robust and labile feedback loops in the segmentation clock of the red flour beetle.
Felix KaufholzJulia UlrichMuhammad Salim HakeemiGregor BucherPublished in: Proceedings of the National Academy of Sciences of the United States of America (2024)
Animals from all major clades have evolved a segmented trunk, reflected in the human spine or the insect segments. These units emerge during embryogenesis from a posterior segment addition zone (SAZ), where repetitive gene activity is regulated by a mechanism described by the clock and wavefront/speed gradient model. In the red flour beetle Tribolium castaneum , RNA interference (RNAi) has been used to continuously knock down the function of primary pair-rule genes (pPRGs), caudal or Wnt pathway components, which has led to the complete breakdown of segmentation. However, it has remained untested, if this breakdown was reversible by bringing the missing gene function back to the system. To fill this gap, we established a transgenic system in T. castaneum , which allows blocking an ongoing RNAi effect with temporal control by expressing a viral inhibitor of RNAi via heat shock. We show that the T. castaneum segmentation machinery was able to reestablish after RNAi targeting the pPRGs Tc-eve, Tc-odd, and Tc-runt was blocked. However, we observed no rescue after blocking RNAi targeting Wnt pathway components. We conclude that the insect segmentation system contains both robust feedback loops that can reestablish and labile feedback loops that break down irreversibly. This combination may reconcile conflicting needs of the system: Labile systems controlling initiation and maintenance of the SAZ ensure that only one SAZ is formed. Robust feedback loops confer developmental robustness toward external disturbances.
Keyphrases
- deep learning
- convolutional neural network
- heat shock
- genome wide identification
- genome wide
- stem cells
- cell proliferation
- transcription factor
- sars cov
- cancer therapy
- machine learning
- heat shock protein
- aedes aegypti
- high frequency
- drug delivery
- heat stress
- genome wide analysis
- induced pluripotent stem cells
- lower limb
- pluripotent stem cells