Antisense Transcription of the Neurospora Frequency Gene Is Rhythmically Regulated by CSP-1 Repressor but Dispensable for Clock Function.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-06-01 DOI:10.1177/07487304231153914

Ibrahim A Cemel, Axel C R Diernfellner, Michael Brunner

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Abstract

The circadian clock of Neurospora crassa is based on a negative transcriptional/translational feedback loops. The frequency (frq) gene controls the morning-specific rhythmic transcription of a sense RNA encoding FRQ, the negative element of the core circadian feedback loop. In addition, a long noncoding antisense RNA, qrf, is rhythmically transcribed in an evening-specific manner. It has been reported that the qrf rhythm relies on transcriptional interference with frq transcription and that complete suppression of qrf transcription impairs the circadian clock. We show here that qrf transcription is dispensable for circadian clock function. Rather, the evening-specific transcriptional rhythm of qrf is mediated by the morning-specific repressor CSP-1. Since CSP-1 expression is induced by light and glucose, this suggests a rhythmic coordination of qrf transcription with metabolism. However, a possible physiological significance for the circadian clock remains unclear, as suitable assays are not available.

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神经孢子虫频率基因的反义转录受CSP-1抑制因子的节律性调控，但与时钟功能无关。

粗神经孢子虫的生物钟是基于一个负的转录/翻译反馈循环。频率(frq)基因控制着编码frq的感觉RNA的早晨特异性节律转录，frq是核心昼夜反馈回路的负面元素。此外，一种长链非编码反义RNA, qrf，以夜间特异性的方式有节奏地转录。据报道，qrf节律依赖于对frq转录的转录干扰，而qrf转录的完全抑制会损害生物钟。我们在这里表明，qrf转录对于生物钟功能是必不可少的。相反，qrf的夜间特异性转录节律是由早晨特异性抑制因子CSP-1介导的。由于CSP-1的表达是由光和葡萄糖诱导的，这表明qrf转录与代谢有节律性协调。然而，对于生物钟可能的生理意义仍然不清楚，因为没有合适的检测方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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