Merino Enrique, Yanofsky Charles
Department of Molecular Microbiology, Instituto de Biotecnología, Universidad Nacional Autónoma de México, Cuernavaca, Morelos 62271, México.
Trends Genet. 2005 May;21(5):260-4. doi: 10.1016/j.tig.2005.03.002.
We employed computational analyses to assess the conservation of sequence elements that are believed to be essential for the various transcription-attenuation (termination) mechanisms that are used to regulate expression of families of orthologous genes in bacteria. We searched the upstream sequence of every predicted transcription unit for a transcription attenuator. These were then clustered by the orthology relationships of the nearby structural genes. Many gene families regulated by transcription attenuation were found to be adjacent to a regulatory region that had a binding site for a specific protein, tRNA or small metabolite. Using our methodology, we predict that at least 80 different clusters of orthologous groups (COGs) are significantly regulated by transcription attenuation.
我们采用计算分析方法来评估序列元件的保守性,这些序列元件被认为对于用于调节细菌中直系同源基因家族表达的各种转录衰减(终止)机制至关重要。我们在每个预测的转录单元的上游序列中搜索转录衰减子。然后根据附近结构基因的直系同源关系对这些衰减子进行聚类。发现许多受转录衰减调节的基因家族与一个具有特定蛋白质、tRNA或小代谢物结合位点的调控区域相邻。使用我们的方法,我们预测至少80个不同的直系同源群(COG)簇受到转录衰减的显著调节。