Translation inhibition and resource balance in the TX-TL cell-free gene expression system.

IF 2.6 Q2 BIOCHEMICAL RESEARCH METHODS
Synthetic biology (Oxford, England) Pub Date : 2017-11-29 eCollection Date: 2017-01-01 DOI:10.1093/synbio/ysx005
Vijayalakshmi H Nagaraj, James M Greene, Anirvan M Sengupta, Eduardo D Sontag
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引用次数: 29

Abstract

Quantifying the effect of vital resources on transcription (TX) and translation (TL) helps to understand the degree to which the concentration of each resource must be regulated for achieving homeostasis. Utilizing the synthetic TX-TL system, we study the impact of nucleotide triphosphates (NTPs) and magnesium (Mg2+) on gene expression. Recent observations of the counter-intuitive phenomenon of suppression of gene expression at high NTP concentrations have led to the speculation that such suppression is due to the consumption of resources by TX, hence leaving fewer resources for TL. In this work, we investigate an alternative hypothesis: direct suppression of the TL rate via stoichiometric mismatch in necessary reagents. We observe NTP-dependent suppression even in the early phase of gene expression, contradicting the resource-limitation argument. To further decouple the contributions of TX and TL, we performed gene expression experiments with purified messenger RNA (mRNA). Simultaneously monitoring mRNA and protein abundances allowed us to extract a time-dependent translation rate. Measuring TL rates for different Mg2+ and NTP concentrations, we observe a complex resource dependence. We demonstrate that TL is the rate-limiting process that is directly inhibited by high NTP concentrations. Additional Mg2+ can partially reverse this inhibition. In several experiments, we observe two maxima of the TL rate viewed as a function of both Mg2+ and NTP concentration, which can be explained in terms of an NTP-independent effect on the ribosome complex and an NTP-Mg2+ titration effect. The non-trivial compensatory effects of abundance of different vital resources signal the presence of complex regulatory mechanisms to achieve optimal gene expression.

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TX-TL无细胞基因表达系统中的翻译抑制和资源平衡。
量化重要资源对转录(TX)和翻译(TL)的影响有助于了解每种资源的浓度必须在多大程度上被调节以实现体内平衡。利用合成的TX-TL系统,我们研究了三磷酸核苷酸(NTPs)和镁(Mg2+)对基因表达的影响。最近对高NTP浓度下基因表达抑制的反直觉现象的观察导致人们猜测这种抑制是由于TX消耗了资源,因此留给TL的资源更少。在这项工作中,我们研究了另一种假设:通过必要试剂的化学量错配直接抑制TL速率。我们甚至在基因表达的早期阶段观察到ntp依赖性抑制,这与资源限制的观点相矛盾。为了进一步解耦TX和TL的作用,我们用纯化的信使RNA (mRNA)进行了基因表达实验。同时监测mRNA和蛋白质丰度使我们能够提取随时间变化的翻译率。测量不同Mg2+和NTP浓度的TL率,我们观察到复杂的资源依赖性。我们证明了TL是一个限速过程,它被高NTP浓度直接抑制。额外的Mg2+可以部分逆转这种抑制作用。在几个实验中,我们观察到两个TL速率的最大值被认为是Mg2+和NTP浓度的函数,这可以用NTP对核糖体复合物的不依赖效应和NTP-Mg2+滴定效应来解释。丰富的不同生命资源的非微不足道的补偿效应表明存在复杂的调节机制,以实现最佳的基因表达。
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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