Duret L, Dorkeld F, Gautier C
Laboratoire de Biométrie, Génétique et Biologie des Populations, Université Claude Bernard, Lyon I, URA-CNRS 243, Villeurbanne, France.
Nucleic Acids Res. 1993 May 25;21(10):2315-22. doi: 10.1093/nar/21.10.2315.
Comparison of nucleotide sequences from different classes of vertebrates that diverged more than 300 million years ago, revealed the existence of highly conserved regions (HCRs) with more than 70% similarity over 100 to 1450 nt in non-coding parts of genes. Such a conservation is unexpected because it is much longer and stronger than what is necessary for specifying the binding of a regulatory protein. HCRs are relatively frequent, particularly in genes that are essential to cell life. In multigene families, conserved regions are specific of each isotype and are probably involved in the control of their specific pattern of expression. Studying HCRs distribution within genes showed that functional constraints are generally much stronger in 3'-non-coding regions than in promoters or introns. The 3'-HCRs are particularly A + T-rich and are always located in the transcribed untranslated regions of genes, which suggests that they are involved in post-transcriptional processes. However, current knowledge of mechanisms that regulate mRNA export, localisation, translation, or degradation is not sufficient to explain the strong functional constraints that we have characterised.
对3亿多年前分化的不同类脊椎动物的核苷酸序列进行比较,发现在基因的非编码区存在高度保守区域(HCR),在100至1450个核苷酸上相似度超过70%。这种保守性出人意料,因为它比指定调节蛋白结合所需的长度长得多且强得多。HCR相对常见,尤其是在对细胞生命至关重要的基因中。在多基因家族中,保守区域是每种同种型特有的,可能参与其特定表达模式的控制。研究基因内HCR的分布表明,3'非编码区的功能限制通常比启动子或内含子更强。3'-HCR特别富含A+T,并且总是位于基因的转录非翻译区,这表明它们参与转录后过程。然而,目前关于调节mRNA输出、定位、翻译或降解机制的知识不足以解释我们所描述的强大功能限制。