No Promoter Left Behind (NPLB): learn de novo promoter architectures from genome-wide transcription start sites

Mitra Sneha; Narlikar Leelavati

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No Promoter Left Behind (NPLB): learn de novo promoter architectures from genome-wide transcription start sites

机译：无启动子落后（NPLB）：从全基因组转录起始位点学习从头启动子架构

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Promoters have diverse regulatory architectures and thus activate genes differently. For example, some have a TATA-box, many others do not. Even the ones with it can differ in its position relative to the transcription start site (TSS). No Promoter Left Behind (NPLB) is an efficient, organism-independent method for characterizing such diverse architectures directly from experimentally identified genome-wide TSSs, without relying on known promoter elements. As a test case, we show its application in identifying novel architectures in the fly genome.

机译：启动子具有多种调控结构，因此激活基因的方式也不同。例如，有些具有TATA盒，而另一些则没有。即使是带有它的人，其相对于转录起始位点（TSS）的位置也可能不同。没有遗留下来的启动子（NPLB）是一种有效的，不依赖于有机体的方法，可直接从实验确定的全基因组范围的TSS中表征这些多样化的结构，而无需依赖已知的启动子元件。作为一个测试案例，我们展示了其在识别苍蝇基因组中新结构方面的应用。

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《Bioinformatics》 |2016年第5期|共3页
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Mitra Sneha; Narlikar Leelavati;
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1. No Promoter Left Behind (NPLB): learn de novo promoter architectures from genome-wide transcription start sites [J] . Mitra Sneha, Narlikar Leelavati Bioinformatics . 2016,第5期

机译：无启动子落后（NPLB）：从全基因组转录起始位点学习从头启动子架构
2. Genome-wide determination of transcription start sites reveals new insights into promoter structures in the actinomycete Corynebacterium glutamicum [J] . Journal of Biotechnology . 2017,第期

机译：基因组的转录起始位点的测定揭示了在放电工会棒状杆菌谷氨酰胺中的启动子结构中的新见解
3. Genome-wide determination of transcription start sites reveals new insights into promoter structures in the actinomycete Corynebacterium glutamicum [J] . Albersmeier Andreas, Pfeifer-Sancar Katharina, Rueckert Christian, Renewable Agriculture and Food Systems . 2017,第4期

机译：基因组的转录起始位点的测定揭示了在放电工会棒状杆菌谷氨酰胺中的启动子结构中的新见解
4. Genome-wide identification of TSS, promoters and transcriptional factor binding sites in E. coli K-12 bacterial genome: Development of a bioinformatics tool for the graphical display of the high throughput sequencing data [C] . Enrique Morett, Leticia Vega-Alvarado, Ryosuke L.A.Watanabe, The 7th Asia-Pacific Bioinformatics Conference（第七届亚太生物信息学大会） . 2009

机译：大肠杆菌K-12细菌基因组中TSS，启动子和转录因子结合位点的全基因组鉴定：开发用于以图形方式显示高通量测序数据的生物信息学工具
5. Two stories of human transcription regulation: Bidirectional promoters and the multiple transcription start sites of FOXP2 [D] . Schroeder, Diane Irene 2008

机译：人类转录调控的两个故事：双向启动子和FOXP2的多个转录起始位点
6. No Promoter Left Behind (NPLB): learn de novo promoter architectures from genome-wide transcription start sites [O] . Sneha Mitra, Leelavati Narlikar -1

机译：无启动子落后（NPLB）：从全基因组转录起始位点学习从头启动子架构
7. Genome-Wide Identification of Transcription Start Sites, Promoters and Transcription Factor Binding Sites in E. coli [O] . Mendoza-Vargas, A., Olvera, L., Olvera, M., 2009

机译：大肠杆菌中转录起始位点，启动子和转录因子结合位点的全基因组鉴定

No Promoter Left Behind (NPLB): learn de novo promoter architectures from genome-wide transcription start sites

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