Maher Christopher, Stein Lincoln, Ware Doreen
Cold Spring Harbor Laboratory, Cold Spring Harbor, New York 11724, USA.
Genome Res. 2006 Apr;16(4):510-9. doi: 10.1101/gr.4680506. Epub 2006 Mar 6.
Recently there has been a great interest in the identification of microRNAs and their targets as well as understanding the spatial and temporal regulation of microRNA genes. To understand how microRNA genes evolve, we looked at several rapidly evolving families in Arabidopsis thaliana, and found that they arose from a process of genome-wide duplication, tandem duplication, and segmental duplication followed by dispersal and diversification, similar to the processes that drive the evolution of protein gene families. Using multiple expression data sets to examine the transcription patterns of different members of the microRNA families, we find the sequence diversification of duplicated microRNA genes to be accompanied by a change in spatial and temporal expression patterns, suggesting that duplicated copies acquire new functionality as they evolve.
最近,人们对鉴定微小RNA及其靶标以及了解微小RNA基因的时空调控产生了浓厚兴趣。为了了解微小RNA基因是如何进化的,我们研究了拟南芥中几个快速进化的家族,发现它们起源于全基因组复制、串联重复和片段重复过程,随后是扩散和多样化,这与驱动蛋白质基因家族进化的过程相似。利用多个表达数据集来研究微小RNA家族不同成员的转录模式,我们发现重复的微小RNA基因的序列多样化伴随着时空表达模式的变化,这表明重复的拷贝在进化过程中获得了新的功能。