Mele Giovanni
Institute of Agricultural Biology and Biotechnology (IBBA), National Council of Research (CNR), Via Salaria Km. 29.300, Monterotondo Scalo (Roma), 00015, Italy.
BMC Bioinformatics. 2016 Jan 27;17:50. doi: 10.1186/s12859-016-0896-x.
The major mechanism driving cellular differentiation and organism development is the regulation of gene expression. Cis-acting enhancers and silencers have key roles in controlling gene transcription. The genomic era allowed the transition from single gene analysis to the investigation of full transcriptomes. This transition increased the complexity of the analyses and the difficulty in the interpretation of the results. In this context, there is demand for new tools aimed at the creation of gene networks that can facilitate the interpretation of Next Generation Sequencing (NGS) data.
Arabidopsis Motif Scanner (AMS) is a Windows application that runs on local computers. It was developed to build gene networks by identifying the positions of cis-regulatory elements in the model plant Arabidopsis thaliana and by providing an easy interface to assess and evaluate gene relationships. Its major innovative feature is to combine the cis-regulatory element positions, NGS and DNA Chip Arrays expression data, Arabidopsis annotations and gene interactions for the identification of gene networks regulated by transcription factors. In studies focused on transcription factors function, the software uses the expression data and binding site motifs in the regulative gene regions to predict direct target genes. Additionally, AMS utilizes DNA-protein and protein-protein interaction data to facilitate the identification of the metabolic pathways regulated by the transcription factor of interest.
Arabidopsis Motif Scanner is a new tool that helps researchers to unravel gene relations and functions. In fact, it facilitates studies focused on the effects and the impact that transcription factors have on the transcriptome by correlating the position of cis-acting elements, gene expression data and interactions.
驱动细胞分化和生物体发育的主要机制是基因表达调控。顺式作用增强子和沉默子在控制基因转录中起关键作用。基因组时代使得从单基因分析过渡到对全转录组的研究成为可能。这种转变增加了分析的复杂性以及结果解释的难度。在此背景下,需要新的工具来构建基因网络,以促进对下一代测序(NGS)数据的解释。
拟南芥基序扫描器(AMS)是一款在本地计算机上运行的Windows应用程序。它旨在通过识别模式植物拟南芥中顺式调控元件的位置,并提供一个易于使用的界面来评估和评价基因关系,从而构建基因网络。其主要创新特性是将顺式调控元件位置、NGS和DNA芯片阵列表达数据、拟南芥注释以及基因相互作用相结合,以识别由转录因子调控的基因网络。在专注于转录因子功能的研究中,该软件利用调控基因区域中的表达数据和结合位点基序来预测直接靶基因。此外,AMS利用DNA-蛋白质和蛋白质-蛋白质相互作用数据,以促进对感兴趣转录因子所调控代谢途径的识别。
拟南芥基序扫描器是一种帮助研究人员揭示基因关系和功能的新工具。事实上,它通过关联顺式作用元件的位置、基因表达数据和相互作用,促进了对转录因子对转录组影响的研究。
