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首页> 外文期刊>Chronobiology international >Temporal expression of clock genes in central and peripheral tissues of spotted munia under varying light conditions: Evidence for circadian regulation of daily physiology in a non-photoperiodic circannual songbird species
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Temporal expression of clock genes in central and peripheral tissues of spotted munia under varying light conditions: Evidence for circadian regulation of daily physiology in a non-photoperiodic circannual songbird species

机译:不同光线条件下斑点梅田中环基因时钟基因的时钟基因的时间表达:非光周期性通知猪鸟类日常生理昼夜节目的证据

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We investigated if the duration and/or frequency of the light period affect 24-h rhythm of circadian dock genes in central and peripheral tissues of a non-photoperiodic songbird, the spotted munia (Lonchura punctulata), in which a circannual rhythm regulates the reproductive cycle. We monitored activity-rest pattern and measured 24-h mRNA oscillation of core clock (Bmal1, Clock, Per2, Cryl and Cry2) and dock-controlled (E4bp4, Rora and Rev-erba) genes in the hypothalamus, retina, liver and gut of spotted munia subjected to an aberrant light-dark (LD) cycle (3.5L:3.5D; 17, T = period length of LD cycle) and continuous light (LL, 24L:OD), with controls on 24-h LD cycle (T24, 12L:12D). Munia exhibited rhythmic activity-rest pattern with period matched to T7 or T24 under an LD cycle and were arrhythmic with a scattered activity pattern and higher activity duration under LL. At the transcriptional level, both dock and clock-controlled genes showed a significant 24-h rhythm in all four tissues (except Clock in the liver) under 12L:12D, suggesting a conserved tissue-level circadian time generation in spotted munia. An exposure to 3.5L:3.5D or LL induced arrhythmicity in transcriptional oscillation of all eight genes in the hypothalamus (except Rev-erba) and liver (except Bmall and Rev-erba under T7 and Cryl under LL). In the retina, however, all genes showed arrhythmic 24-h mRNA expression under LL, but not under T7 (except in E4bp4 and Rora). Interestingly, unlike in the liver, Small, Per2, Cryl, Rora and Rev-erba mRNA expressions were rhythmic in the gut under both 17 (except Rora) and LL conditions. These results showed variable relationship of internal circadian clocks with the external light environment and suggested a weak coupling of circadian docks between the central (hypothalamus and retina) and peripheral (liver and gut) tissues. We suggest tissue-level circadian dock regulation of daily physiology and behavior in the spotted munia.
机译:我们调查了光周期的持续时间和/或频率,影响了非光周期鸣禽的中央和外周组织中的昼夜周组织的24小时节奏,该斑点(Lonchura Punctulata),其中通信节奏调节生殖器循环。我们监测了核心,视网膜,视网膜,肝脏和肠道的核心时钟(BMAL1,时钟,PER2,Cry2)和码头控制(E4BP4,RORA和REG-ERBA)基因的24-H mRNA振荡的运动休息模式并测量了24-H mRNA振荡斑点梅花经过异常光 - 暗(LD)循环(3.5L:3.5d; 17,T =周期长度的LD循环)和连续光(LL,24L:OD),在24-H LD周期上进行控制(T24,12L:12D)。 Munia在LD循环下显示出与T7或T24相匹配的节奏活动休息模式,并且在LL下具有散射活性模式的心律失常和较高的活动持续时间。在转录层面,码头和时钟控制的基因均在12L:12D下的所有四种组织(肝脏中时钟除外)显示出明显的24小时节奏,表明斑点Munia的保守组织级昼夜昼夜时代。暴露于3.5L:3.5D或L1诱导的丘脑中丘脑(Rev-Erba除外)和肝脏中所有​​八个基因的转录振荡中的心律失常(除了在T7和L1下的T7和Cryl下的Bmall和Rev-erba之外)。然而,在视网膜中,所有基因都显示出L1下的心律失常24-H mRNA表达,但在T7下(E4BP4和RORA除外)。有趣的是,与肝脏,小,per2,cryl,rora和Rev-erba mRA和Rev-erba mRA和Rev-erba mRA和Rev-Erba mRA表达不同于17(RORA)和LL条件下是节律的。这些结果显示了内部昼夜钟表与外部光环境的可变关系,并提出了中央(下丘脑和视网膜)和外周(肝脏和肠道)组织之间的昼夜码头的弱耦合。我们建议在斑点Munia中的日常生理学和行为的组织级昼夜行为。

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