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4

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5

Comparative genomics using fugu: a tool for the identification of conserved vertebrate cis-regulatory elements.

Bioessays. 2005 Jan;27(1):100-7. doi: 10.1002/bies.20134.

6

Conserved expression domains for genes upstream and within the HoxA and HoxD clusters suggests a long-range enhancer existed before cluster duplication.

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7

Extreme conservation of noncoding DNA near HoxD complex of vertebrates.

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VISTA: computational tools for comparative genomics.

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脊椎动物Hox基因座处高度保守的同线性基因块以及Hox基因簇内外的保守调控元件。

Highly conserved syntenic blocks at the vertebrate Hox loci and conserved regulatory elements within and outside Hox gene clusters.

作者信息

Lee Alison P, Koh Esther G L, Tay Alice, Brenner Sydney, Venkatesh Byrappa

机构信息

Institute of Molecular and Cell Biology, 61 Biopolis Drive, Singapore 138673.

出版信息

Proc Natl Acad Sci U S A. 2006 May 2;103(18):6994-9. doi: 10.1073/pnas.0601492103. Epub 2006 Apr 24.

DOI:10.1073/pnas.0601492103

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1459007/

Abstract

Hox genes in vertebrates are clustered, and the organization of the clusters has been highly conserved during evolution. The conservation of Hox clusters has been attributed to enhancers located within and outside the Hox clusters that are essential for the coordinated "temporal" and "spatial" expression patterns of Hox genes in developing embryos. To identify evolutionarily conserved regulatory elements within and outside the Hox clusters, we obtained contiguous sequences for the conserved syntenic blocks from the seven Hox loci in fugu and carried out a systematic search for conserved noncoding sequences (CNS) in the human, mouse, and fugu Hox loci. Our analysis has uncovered unusually large conserved syntenic blocks at the HoxA and HoxD loci. The conserved syntenic blocks at the human and mouse HoxA and HoxD loci span 5.4 Mb and 4 Mb and contain 21 and 19 genes, respectively. The corresponding regions in fugu are 16- and 12-fold smaller. A large number of CNS was identified within the Hox clusters and outside the Hox clusters spread over large regions. The CNS include previously characterized enhancers and overlap with the 5' global control regions of HoxA and HoxD clusters. Most of the CNS are likely to be control regions involved in the regulation of Hox and other genes in these loci. We propose that the regulatory elements spread across large regions on either side of Hox clusters are a major evolutionary constraint that has maintained the exceptionally long syntenic blocks at the HoxA and HoxD loci.

摘要

脊椎动物中的Hox基因成簇排列，并且这些基因簇的组织形式在进化过程中一直高度保守。Hox基因簇的保守性归因于Hox基因簇内部和外部的增强子，这些增强子对于发育中的胚胎中Hox基因协调的“时间”和“空间”表达模式至关重要。为了鉴定Hox基因簇内部和外部进化上保守的调控元件，我们获得了来自河豚七个Hox基因座的保守同线基因块的连续序列，并对人类、小鼠和河豚Hox基因座中的保守非编码序列（CNS）进行了系统搜索。我们的分析在HoxA和HoxD基因座发现了异常大的保守同线基因块。人类和小鼠HoxA和HoxD基因座的保守同线基因块分别跨越5.4 Mb和4 Mb，包含21个和19个基因。河豚中的相应区域分别小16倍和12倍。在Hox基因簇内部以及分布在大片区域的Hox基因簇外部鉴定出大量的CNS。这些CNS包括先前已鉴定的增强子，并与HoxA和HoxD基因簇的5'全局控制区域重叠。大多数CNS可能是参与调控这些基因座中Hox基因和其他基因的控制区域。我们提出，分布在Hox基因簇两侧大片区域的调控元件是一种主要的进化限制因素，它维持了HoxA和HoxD基因座异常长的同线基因块。