分枝杆菌操纵子数据库：一个通过计算识别分枝杆菌中操纵子和转录单元的数据库。

MycoperonDB: a database of computationally identified operons and transcriptional units in Mycobacteria.

作者信息

Ranjan Sarita, Gundu Ranjit Kumar, Ranjan Akash

机构信息

Computational & Functional Genomics Group, Sun Centre of Excellence in Medical Bioinformatics, EMBnet India Node, Hyderabad 500076, India.

出版信息

BMC Bioinformatics. 2006 Dec 18;7 Suppl 5(Suppl 5):S9. doi: 10.1186/1471-2105-7-S5-S9.

DOI:10.1186/1471-2105-7-S5-S9

PMID:17254314

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1764487/

Abstract

BACKGROUND

A key post genomics challenge is to identify how genes in an organism come together and perform physiological functions. An important first step in this direction is to identify transcriptional units, operons and regulons in a genome. Here we implement and report a strategy to computationally identify transcriptional units and operons of mycobacteria and construct a database-MycoperonDB.

DESCRIPTION

We have predicted transcriptional units and operons in mycobacteria and organized these predictions in the form of relational database called MycoperonDB. MycoperonDB database at present consists of 18,053 genes organized as 8256 predicted operons and transcriptional units from five closely related species of mycobacteria. The database further provides literature links for experimentally characterized operons. All known promoters and related information is collected, analysed and stored. It provides a user friendly interface to allow a web based navigation of transcription units and operons. The web interface provides search tools to locate transcription factor binding DNA motif upstream to various genes. The reliability of operon prediction has been assessed by comparing the predicted operons with a set of known operons.

CONCLUSION

MycoperonDB is a publicly available structured relational database which has information about mycobacterial genes, transcriptional units and operons. We expect this database to assist molecular biologists/microbiologists in general, to hypothesize functional linkages between operonic genes of mycobacteria, their experimental characterization and validation. The database is freely available from our website http://www.cdfd.org.in/mycoperondb/index.html.

摘要

背景

后基因组学面临的一个关键挑战是确定生物体中的基因如何组合在一起并执行生理功能。朝着这个方向迈出的重要第一步是在基因组中识别转录单元、操纵子和调控子。在此，我们实施并报告了一种通过计算识别分枝杆菌转录单元和操纵子的策略，并构建了一个数据库——分枝杆菌操纵子数据库（MycoperonDB）。

描述

我们已经预测了分枝杆菌中的转录单元和操纵子，并以名为MycoperonDB的关系数据库形式组织了这些预测结果。MycoperonDB数据库目前包含18053个基因，这些基因被组织成8256个预测的操纵子和来自五种密切相关分枝杆菌物种的转录单元。该数据库还为经过实验表征的操纵子提供文献链接。收集、分析并存储了所有已知的启动子及相关信息。它提供了一个用户友好的界面，允许基于网络浏览转录单元和操纵子。该网络界面提供搜索工具，以定位各种基因上游的转录因子结合DNA基序。通过将预测的操纵子与一组已知操纵子进行比较，评估了操纵子预测的可靠性。

结论

MycoperonDB是一个公开可用的结构化关系数据库，其中包含有关分枝杆菌基因、转录单元和操纵子的信息。我们期望这个数据库能帮助一般的分子生物学家/微生物学家推测分枝杆菌操纵子基因之间的功能联系、对其进行实验表征和验证。该数据库可从我们的网站http://www.cdfd.org.in/mycoperondb/index.html免费获取。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7330/1764487/e5b21f0bea9f/1471-2105-7-S5-S9-1.jpg

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分枝杆菌操纵子数据库：一个通过计算识别分枝杆菌中操纵子和转录单元的数据库。

MycoperonDB: a database of computationally identified operons and transcriptional units in Mycobacteria.

作者信息

机构信息

出版信息

BACKGROUND

DESCRIPTION

CONCLUSION

背景

描述

结论

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