Open AccessLost in clocks: non‐canonical circadian oscillation discovered in Drosophila cells
Author(s) -
Ode Koji L,
Ueda Hiroki R
Publication year - 2018
Publication title -
molecular systems biology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 8.523
H-Index - 148
ISSN - 1744-4292
DOI - 10.15252/msb.20188567
Subject(s) - library science , research center , biology , medicine , computer science , pathology
In most organisms, cell‐autonomous circadian clocks are driven by a transcription–translation negative feedback loop (TTFL). Per was the first identified clock gene in the fruit fly and is a core component of the circadian TTFL. Surprisingly, in their recent study, Rey et al ([Rey G, 2018]) demonstrate the presence of apparent circadian rhythmicity in a fly cell line that does not express several core clock genes including per (Rey et al , [Rey G, 2018]). Quantitative multi‐omics measurements allowed the identification of unknown oscillating components and revealed hundreds of transcripts, proteins, and metabolites showing 24‐h rhythmicity, suggesting that at least in the fly, the circadian clock may be driven by non‐canonical (i.e., independent of per ‐driven TTFL) molecular mechanisms.