RNAs competing for microRNAs mutually influence their fluctuations in a highly non-linear microRNA-dependent manner in single cells

Jun Xiao; Run Jin; Doris Wagner

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RNAs competing for microRNAs mutually influence their fluctuations in a highly non-linear microRNA-dependent manner in single cells

机译：竞争microRNA的RNA在单细胞中以高度非线性的microRNA依赖性方式相互影响其波动

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Plant development is predominantly postembryonic and tuned in to respond to environmental cues. All living plant cells can be triggered to de-differentiate, assume different cell identities, or form a new organism. This developmental plasticity is thought to be an adaptation to the sessile lifestyle of plants. Recent discoveries have advanced our understanding of the orchestration of plant developmental switches by transcriptional master regulators, chromatin state changes, and hormone response pathways. Here, we review these recent advances with emphasis on the earliest stages of plant development and on the switch from pluripotency to differentiation in different plant organ systems.

机译：植物的发育主要是胚后的，并根据环境的提示进行调整。可以触发所有活的植物细胞去分化，采取不同的细胞身份或形成新生物。这种发育可塑性被认为是对植物的固执生活方式的适应。最近的发现提高了我们对通过转录主调节剂，染色质状态变化和激素反应途径进行的植物发育开关编排的理解。在这里，我们回顾这些最新进展，重点是植物发育的早期阶段以及在不同植物器官系统中从多能性向分化的转变。

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《Genome Biology》 |2017年第1期|共14页
作者
Jun Xiao; Run Jin; Doris Wagner;
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中图分类分子生物学;
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6. RNAs competing for microRNAs mutually influence their fluctuations in a highly non-linear microRNA-dependent manner in single cells [O] . Carla Bosia, Francesco Sgrò, Laura Conti, 2017

机译：竞争microRNA的RNA在单细胞中以高度非线性的microRNA依赖性方式相互影响其波动
7. RNAs competing for microRNAs mutually influence their fluctuations in a highly non-linear microRNA-dependent manner in single cells [O] . Carla Bosia, Francesco Sgrò, Laura Conti, 2017

机译：竞争microRNA的RNA在单细胞中以高度非线性的microRNA依赖性方式相互影响其波动

RNAs competing for microRNAs mutually influence their fluctuations in a highly non-linear microRNA-dependent manner in single cells

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