小年糕lc
反应和基因表达[7,8]。 Despite such fluctuations in尽管在这种波动the cellular milieu, the S. elongatus clock oscillates with high precision蜂窝氛围,细长的时钟振荡美国高精度and minimal damping for weeks in constant conditions [8,9].和最小的条件在不断周[8,9阻尼]。Somehow, the clock is sufficiently robust to avoid a loss of synchrony不知何故,时钟稳健,足以避免损失同步and the resulting spiral into a steady state.并到一个稳定状态产生的恶性循环。Circadian oscillators evolved long ago, but our understanding of昼夜节律振荡器早已演变,但我们理解the molecular mechanisms underlying circadian clocks remains基本生物钟的分子机制仍murky.黑暗。 These mechanisms have been investigated primarily in这些机制主要是在调查cyanobacteria, fungi, flies, plants, and mammals.蓝细菌,真菌,果蝇,植物和哺乳动物。 The prevailing普遍models for the internal timepieces of all but the first of those对所有的内部钟表产品,但这些第一organisms involve a negative transcriptional feedback loop in涉及生物负反馈环路的转录which so-called clock genes encode proteins that repress their而所谓的生物钟基因编码的蛋白质,压抑own transcription.自己的转录。 These negative feedback loops typically are负反馈环,这些通常是intertwined with other feedback loops and are overlaid with交织在一起的其他反馈回路,并与覆盖post-translational regulation affecting protein stability, activity,翻译后调控蛋白稳定性的影响,活动,and localization [1].和本地化[1]。 Disentangling the mechanisms and rigorously理清机制,严格testing models of these oscillators have been hampered by the这些振荡器测试模式已经妨碍了complexity of both the oscillators themselves and the cellular environment复杂性都振荡器自己和细胞环境in which they are embedded.它们是嵌入式。An opportunity to break through such complexity recently有机会通过如此复杂的突破,最近emerged from investigations of the circadian clock of S. elongatus,摆脱对美国的细长生物钟的调查,whose core oscillator consists of just three proteins: KaiA, KaiB,振荡器,其核心组成:只有三种蛋白的KAIA KaiB,and KaiC.和KaiC。 Although the oscillator originally was thought to be a虽然振荡器原本被认为是一transcriptional feedback oscillator analogous to those found in转录反馈振荡器类似的发现higher organisms [10], Kondo and colleagues showed in 2005 that高等生物[10],近藤和同事发现,2005年,the clock of S. elongatus requires neither transcription nor translation S的长形蛋时钟既不需要也不转录翻译– oscillations in KaiC phosphorylation state persist in the在KaiC磷酸化状态-振荡坚持absence of transcriptional feedback and protein synthesis [4].缺乏转录和蛋白质合成的反馈[4]。Remarkably, the Kai proteins themselves constitute a circadian值得注意的是,启蛋白质本身构成昼夜clock: temperature-compensated circadian oscillations in KaiC时钟:温度补偿的KaiC昼夜振荡phosphorylation can be reconstituted in vitro by combining the磷酸化,可在体外重组结合three Kai proteins and adenosine triphosphate (ATP) [11].三启蛋白磷酸腺苷(ATP)[11]。 This这个three-protein, test-tube oscillator displays all three cardinal properties三蛋白,试管振荡器显示所有三项基本属性of a circadian clock: free-run, temperature compensation,一个生物钟:自由运行,温度补偿,and entrainment [11–13].和夹带[11-13]。 Oscillations of KaiC phosphorylation磷酸化的KaiC振荡free-run for at least 10 days in vitro [14], and the period of oscillation自由至少10体外[14]天运行,并且振荡周期is temperature-compensated [11,13].是温度补偿[11,13]。 The phase of the该阶段in vitro clock is phase-shifted by, and entrainable to, temperature体外时钟相移的,和entrainable的,温度shifts [12,13], although it is not entrainable by light, presumably变化[12,13],虽然不是entrainable光,大概because cellular components required for this property are absent因为细胞成分,此属性所需的缺席2. 2。 Biochemistry of the Kai oscillator生物化学启振荡器The ability to reconstitute the oscillator in vitro and to mix and重组的能力在体外振荡器和混合并match its four components (KaiA, KaiB, KaiC, and ATP) in arbitrary比赛的四个组成部分任意(选手Kaia,KaiB,KaiC,和ATP)combinations has permitted detailed, quantitative biochemical组合已准许详细的,定量生化characterization of the Kai proteins.表征启蛋白质。 Structures of all three proteins所有三个结构蛋白(or their homologs in related organisms) have been solved by (或相关生物的同源)已解决
小仙姓朱
reactions and gene expression [7,8]. 反应与基因的表现形式(文献7,8)Despite such fluctuations in the cellular milieu, the S. elongatus clock oscillates with high precision and minimal damping for weeks in constant conditions [8,9].在恒定条件下,尽管有细胞媒介的变异,S型的细长生物钟仍然能够在高度的准确性和最小的衰减下,周期性地工作几个星期。Somehow, the clock is sufficiently robust to avoid a loss of synchrony and the resulting spiral into a steady state.生物钟足以能够避免同步性的丧失,并能够螺旋式地进入稳定状态,这一点,目前还不清楚其原因。Circadian oscillators evolved long ago, but our understanding of the molecular mechanisms underlying circadian clocks remains murky. 生物节律已经研究了很久,但是我们对生物钟的分子层次的理解仍然是模糊不清的。These mechanisms have been investigated primarily in cyanobacteria, fungi, flies, plants, and mammals. 这方面的最初研究是通过藻青菌、真菌、飞虫、植物和哺乳动物进行的。The prevailing models for the internal timepieces of all but the first of those organisms involve a negative transcriptional feedback loop in which so-called clock genes encode proteins that repress theirown transcription. 对于所有生物(不是第一生物)的内部生物钟的主流性的模型包括了阴性的一个反馈式的转录环,此环被称为时钟基因,它给予蛋白质基因密码,抑制其自身转录。These negative feedback loops typically are intertwined with other feedback loops and are overlaid with post-translational regulation affecting protein stability, activity, and localization [1].通常这种阴性的反馈环与转录后的机制互相缠绕、互相重叠,从而影响到蛋白质的稳定性、活跃性和定位性。(文献1)Disentangling the mechanisms and rigorously testing models of these oscillators have been hampered by the complexity of both the osillators themselves and the cellular environment in which they are embedded.探清生物钟的机制和对其进行严格的测试工作,由于生物钟以及它们赖以生存的细胞环境的复杂性而受到阻碍。An opportunity to break through such complexity recently emerged from investigations of the circadian clock of S. elongatus, whose core oscillator consists of just three proteins: KaiA, KaiB,and KaiC. 打破这种复杂性的机会,最近终于浮现,通过对S型细长的生物钟的研究发现,这种周期性的生物节律由三种蛋白质所形成:KaiA, KaiB,和 KaiC。Although the oscillator originally was thought to be a transcriptional feedback oscillator analogous to those found inhigher organisms [10], Kondo and colleagues showed in 2005 that the clock of S. elongatus requires neither transcription nor translation–oscillations in KaiC phosphorylation state persist in the absence of transcriptional feedback and protein synthesis [4].虽然原始的生物钟是模拟高等生物的转录反馈生物节律,但是Kondo和他的同事们在2005年证实S型细长生物钟既不需要转录,也不需要转译---在缺乏转录反馈和蛋白质合成的情况下,在KaiC磷酸化的状态,生物节律仍然持续。(文献4)Remarkably, the Kai proteins themselves constitute a circadian clock: temperature-ompensated circadian oscillations in KaiC phosphorylation can be reconstituted in vitro by combining the three Kai proteins and adenosine triphosphate (ATP) [11]. 显然地,KaiC 蛋白质自身构成了一个生物钟:在磷酸化状态下的温度补偿式的生物钟,结合三种 Kai 蛋白质与三磷酸腺苷,在玻璃试管内可以重构生物钟。This three-protein, test-tube oscillator displays all three cardinal properties of a circadian clock: free-run, temperature compensation,and entrainment [11–13]. 这种三蛋白质试管内的生物钟显示了所有生物钟的三种基本特性:自由进行、温度补偿和调节。(文献11-13)Oscillations of KaiC phosphorylation free-run for at least 10 days in vitro [14], and the period of oscillation is temperature-compensated [11,13]. 这种 KaiC 磷酸化状态下自由进行的生物钟在试管中可以至少持续10天(文献14),生物钟的周期是温度补偿式的(文献14)。The phase of the in vitro clock is phase-shifted by, and entrainable to, temperature shifts [12,13], although it is not entrainable by light, presumably because cellular components required for this property are absent 2. 这种在试管中的生物钟会有相移,如温度引起的相移,不过可以调节,虽然现在不可以用光来调节,因为缺乏所需要的细胞成分。Biochemistry of the Kai oscillator The ability to reconstitute the oscillator in vitro and to mix and match its four components (KaiA, KaiB, KaiC, and ATP) in arbitrary combinations has permitted detailed, quantitative biochemical characterization of the Kai proteins. Kai 生物钟的生物化学。在试管中以任意的组合方式,与四种成分(KaiA, KaiB, KaiC, 和三磷酸腺苷)的混合与配对,用以重建生物钟的能力已经细制的进入了蛋白质的生物化学方面的定量分析了。Structures of all three proteins (or their homologs in related organisms) have been solved by 所有三种蛋白质的结构,以及在有关的生物体的同系物中,已经由....解决了。
C罗C梅西梅
nested exception
英[ˈnestɪd ɪkˈsepʃn]
美[ˈnestɪd ɪkˈsepʃn]
嵌套异常;
[例句]Illustrates how to use nested exception handlers in a workflow to catch and handle specific exception types at different stages in the workflow.
阐释如何在工作流中使用嵌套异常处理程序,以便在工作流的不同阶段捕获和处理特定的异常类型。
双语例句
1
Illustrates how to use nested exception handlers in a workflow to catch and handle specific exception types at different stages in the workflow.
阐释如何在工作流中使用嵌套异常处理程序,以便在工作流的不同阶段捕获和处理特定的异常类型。
2
Creating a nested, hierarchical exception framework will improve both your code's readability and its usability.
创建一个嵌套的、层次结构化的异常框架将改进代码的可读性及其可用性。
泸州老叫
mbedded value 内涵价值网络释义专业释义英英释义 内在价值保险企业的 内在价值 ( Embedded Value ),又称内含价值,作为保险业独有的概念,是对其经济价值的估计,不包括未来新业务产生的价值,直接反映寿险公司当前的经营成果...基于632个网页-相关网页 内含价值 内涵价值 嵌入值短语Price-to-embedded-value 内含价值Embedded Value Profits 内在价值法European Embedded Value Principles 欧洲内含价值准则 更多网络短语Things like Embedded Resources in Mongo can be implemented usingsomething called an Embedded Value, and should work just fine with all existingadapters. 在Mongo中内嵌资源等能够使用内嵌值之类的来实现,而且能够和现存的适配器工作的很好。embedded英 美 [ɪm'bɛd] adj. 嵌入式的;植入的;内含的v. 嵌入(embed的过去式和过去分词形式)网络释义专业释义英英释义 嵌入式嵌入式(Embedded):主要涵盖嵌入式在汽车、工控、医疗、农业及等应用领域中的行业趋势、产品与构建平台等相关数据信息。基于716个网页-相关网页 嵌入 内嵌式 内嵌短语Embedded SQL 嵌入式SQL ; 镶嵌式查询语言 ; 何谓 ; 嵌入式结构化查询语言embedded lump 镶块embedded core 加装砂心 ; 补砂芯 ; 嵌入式核 ; 加装泥心 更多网络短语21世纪大英汉词典embed [im'bed]vt.把…嵌入(或埋入、插入、放入);埋置;固定(在某物之中);扎牢(in):to embed tiles (or stones) in cement在水泥中砌进瓷砖(或石块)a gold crown embedded with jewels一顶嵌有珠宝的金冠围住;紧紧围住:Thick cotton padding embedded the precious vase in its box.厚厚的棉花填塞物紧紧围住装在盒子中的贵重花瓶。作为本质部分(或特点)体现(或含有):A love of colour is embedded in all of his paintings.对颜色的喜爱体现在他的所有绘画中。把(花等)栽入土中:She embedded the bulbs in a box of sand.她把球茎栽在一盘沙土中。 更多结果以上来源于:《21世纪大英汉词典》
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