海鞘的非编码调控序列在进化约束和功能重要性之间表现出强烈的对应关系。
Noncoding regulatory sequences of Ciona exhibit strong correspondence between evolutionary constraint and functional importance.
作者信息
Johnson David S, Davidson Brad, Brown Christopher D, Smith William C, Sidow Arend
机构信息
Department of Pathology, Stanford University Medical Center, Stanford, California 94305-5324, USA.
出版信息
Genome Res. 2004 Dec;14(12):2448-56. doi: 10.1101/gr.2964504. Epub 2004 Nov 15.
Abstract
We show that sequence comparisons at different levels of resolution can efficiently guide functional analyses of regulatory regions in the ascidians Ciona savignyi and Ciona intestinalis. Sequence alignments of several tissue-specific genes guided discovery of minimal regulatory regions that are active in whole-embryo reporter assays. Using the Troponin I (TnI) locus as a case study, we show that more refined local sequence analyses can then be used to reveal functional substructure within a regulatory region. A high-resolution saturation mutagenesis in conjunction with comparative sequence analyses defined essential sequence elements within the TnI regulatory region. Finally, we found a significant, quantitative relationship between function and sequence divergence of noncoding functional elements. This work demonstrates the power of comparative sequence analysis between the two Ciona species for guiding gene regulatory experiments.
摘要
我们表明,在不同分辨率水平上进行序列比较能够有效地指导对海鞘萨氏海鞘(Ciona savignyi)和肠海鞘(Ciona intestinalis)调控区域的功能分析。几个组织特异性基因的序列比对指导了在全胚胎报告基因检测中具有活性的最小调控区域的发现。以肌钙蛋白I(TnI)基因座为例,我们表明,随后可以使用更精细的局部序列分析来揭示调控区域内的功能亚结构。高分辨率饱和诱变结合比较序列分析确定了TnI调控区域内的必需序列元件。最后,我们发现非编码功能元件的功能与序列分歧之间存在显著的定量关系。这项工作证明了对两种海鞘进行比较序列分析在指导基因调控实验方面的强大作用。
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