TSmiRNA


24889152	Genome-wide survey of tissue-specific microRNA and transcription factor regulatory networks in 12 tissues. [PMID: 24889152] Guo Z, Maki M, Ding R, Yang Y, Zhang B, Xiong L. Abstract Tissue-specific miRNAs (TS miRNA) specifically expressed in particular tissues play an important role in tissue identity, differentiation and function. However, transcription factor (TF) and TS miRNA regulatory networks across multiple tissues have not been systematically studied. Here, we manually extracted 116 TS miRNAs and systematically investigated the regulatory network of TF-TS miRNA in 12 human tissues. We identified 2,347 TF-TS miRNA regulatory relations and revealed that most TF binding sites tend to enrich close to the transcription start site of TS miRNAs. Furthermore, we found TS miRNAs were regulated widely by non-tissue specific TFs and the tissue-specific expression level of TF have a close relationship with TF-genes regulation. Finally, we describe TSmiR (http://bioeng.swjtu.edu.cn/TSmiR), a novel and web-searchable database that houses interaction maps of TF-TS miRNA in 12 tissues. Taken together, these observations provide a new suggestion to better understand the regulatory network and mechanisms of TF-TS miRNAs underlying different tissues. Sci Rep. 2014:4() \| 170 Citations (from Europe PMC, 2026-06-06)

Genome-wide survey of tissue-specific microRNA and transcription factor regulatory networks in 12 tissues. [PMID: 24889152]

Guo Z, Maki M, Ding R, Yang Y, Zhang B, Xiong L.

Abstract

Tissue-specific miRNAs (TS miRNA) specifically expressed in particular tissues play an important role in tissue identity, differentiation and function. However, transcription factor (TF) and TS miRNA regulatory networks across multiple tissues have not been systematically studied. Here, we manually extracted 116 TS miRNAs and systematically investigated the regulatory network of TF-TS miRNA in 12 human tissues. We identified 2,347 TF-TS miRNA regulatory relations and revealed that most TF binding sites tend to enrich close to the transcription start site of TS miRNAs. Furthermore, we found TS miRNAs were regulated widely by non-tissue specific TFs and the tissue-specific expression level of TF have a close relationship with TF-genes regulation. Finally, we describe TSmiR (http://bioeng.swjtu.edu.cn/TSmiR), a novel and web-searchable database that houses interaction maps of TF-TS miRNA in 12 tissues. Taken together, these observations provide a new suggestion to better understand the regulatory network and mechanisms of TF-TS miRNAs underlying different tissues.

Sci Rep. 2014:4() | 170 Citations (from Europe PMC, 2026-06-06)

URL:	http://lcbb.swjtu.edu.cn/TSmiRNA/
Full name:	Tissue-Specific microRNA Database
Description:	TSmiRNAFF, a free, web-accessible database, provides information about tissue-specific miRNA and interaction maps of tissue-specific miRNA, TF and gene according to High-throughput sequencing data.
Year founded:	2014
Last update:
Version:
Accessibility:	Accessible
Country/Region:	China

Data type:	RNA
Data object:	Animal
Database category:	Expression Interaction
Major species:	Homo sapiens
Keywords:	Tissue-Specific microRNA High-throughput sequencing data Pan miRNA

University/Institution:	Southwest Jiaotong University
Address:	School of Life Sciences and Bioengineering, Southwest Jiaotong University, Chengdu, 610031, P.R. China.
City:
Province/State:
Country/Region:	China
Contact name (PI/Team):	Zhiyun Guo
Contact email (PI/Helpdesk):	zhiyunguo@swjtu.edu.cn

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Database Commons a catalog of worldwide biological databases