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来自生物钟的不同信号通路参与了粗糙脉孢菌中有节奏的分生孢子发育的调控。

Distinct signaling pathways from the circadian clock participate in regulation of rhythmic conidiospore development in Neurospora crassa.

作者信息

Correa Alejandro, Bell-Pedersen Deborah

机构信息

Department of Biology, Texas A&M University, College Station, Texas 77843, USA.

出版信息

Eukaryot Cell. 2002 Apr;1(2):273-80. doi: 10.1128/EC.1.2.273-280.2002.

DOI:10.1128/EC.1.2.273-280.2002
PMID:12455961
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC118037/
Abstract

Several different environmental signals can induce asexual spore development (conidiation) and expression of developmentally regulated genes in Neurospora crassa. However, under constant conditions, where no environmental cues for conidiation are present, the endogenous circadian clock in N. crassa promotes daily rhythms in expression of known developmental genes and of conidiation. We anticipated that the same pathway of gene regulation would be followed during clock-controlled conidiation and environmental induction of conidiation and that the circadian clock would need only to control the initial developmental switch. Previous experiments showed that high-level developmental induction of the clock-controlled genes eas (ccg-2) and ccg-1 requires the developmental regulatory proteins FL and ACON-2, respectively, and normal developmental induction of fl mRNA expression requires ACON-2. We demonstrate that the circadian clock regulates rhythmic fl gene expression and that fl rhythmicity requires ACON-2. However, we find that clock regulation of eas (ccg-2) is normal in an fl mutant strain and ccg-1 expression is rhythmic in an acon-2 mutant strain. Together, these data point to the endogenous clock and the environment following separate pathways to regulate conidiation-specific gene expression.

摘要

几种不同的环境信号可诱导粗糙脉孢菌进行无性孢子发育(产孢)并表达发育调控基因。然而,在恒定条件下,即不存在产孢的环境线索时,粗糙脉孢菌的内源性生物钟会促进已知发育基因的表达以及产孢的日常节律。我们预计,在生物钟控制的产孢过程以及环境诱导产孢过程中会遵循相同的基因调控途径,并且生物钟仅需控制初始发育开关。先前的实验表明,对生物钟控制基因eas(ccg - 2)和ccg - 1的高水平发育诱导分别需要发育调控蛋白FL和ACON - 2,而fl mRNA表达的正常发育诱导需要ACON - 2。我们证明生物钟调节fl基因的节律性表达,且fl的节律性需要ACON - 2。然而,我们发现,在fl突变株中eas(ccg - 2)的生物钟调节正常,在acon - 2突变株中ccg - 1的表达具有节律性。总之,这些数据表明内源性生物钟和环境遵循不同途径来调节产孢特异性基因的表达。

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