HIGHLIGHTS
- Who: COP and colleagues from the State University have published the research work: COP5/HKR1 changes ciliary beat pattern and biases cell steering during chemotaxis in, in the Journal: Scientific Reports Scientific Reports
- How: To determine the incidences of this spontaneous waveform switching the algorithm was applied to cells swimming in homogeneous (non-gradient) ammonium conditions and the number of symmetric waveform incidence per track per second found.
- Future: At this point further biochemical and genetic studies are needed to characterize the precise role that COP5/HKR1 plays in chemoreception.
SUMMARY . . .
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