Visualization and Analysis of MicroRNAs within KEGG Pathways using VANESA

Hamzeiy, Hamid; Suluyayla, Rabia; Brinkrolf, Christoph; Janowski, Sebastian Jan; Hofestädt, Ralf; Allmer, Jens

Visualization and Analysis of MicroRNAs within KEGG Pathways using VANESA

Hamzeiy H, Suluyayla R, Brinkrolf C, Janowski SJ, Hofestädt R, Allmer J (2017)
JOURNAL OF INTEGRATIVE BIOINFORMATICS 14(1).

Zeitschriftenaufsatz | Veröffentlicht | Englisch

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DOI

https://doi.org/10.1515/jib-2016-0004

Autor*in

Hamzeiy, Hamid; Suluyayla, Rabia; Brinkrolf, Christoph^UniBi; Janowski, Sebastian Jan^UniBi; Hofestädt, Ralf^UniBi; Allmer, Jens

Einrichtung

Technische Fakultät > AG Bioinformatik

Abstract / Bemerkung

MicroRNAs (miRNAs) are small RNA molecules which are known to take part in post-transcriptional regulation of gene expression. Here, VANESA, an existing platform for reconstructing, visualizing, and analysis of large biological networks, has been further expanded to include all experimentally validated human miRNAs available within miRBase, TarBase and miRTarBase. This is done by integrating a custom hybrid miRNA database to DAWIS-M.D., VANESA's main data source, enabling the visualization and analysis of miRNAs within large biological pathways such as those found within the Kyoto Encyclopedia of Genes and Genomes (KEGG). Interestingly, 99.15 % of human KEGG pathways either contain genes which are targeted by miRNAs or harbor them. This is mainly due to the high number of interaction partners that each miRNA could have (e.g.: hsa-miR-335-5p targets 2544 genes and 71 miRNAs target NUFIP2). We demonstrate the usability of our system by analyzing the measles virus KEGG pathway as a proof-of-principle model and further highlight the importance of integrating miRNAs (both experimentally validated and predicted) into biological networks for the elucidation of novel miRNA-mRNA interactions of biological importance.

Stichworte

VANESA; microRNA; KEGG pathway; target database; measles

Erscheinungsjahr

2017

Zeitschriftentitel

JOURNAL OF INTEGRATIVE BIOINFORMATICS

Band

Ausgabe

Art.-Nr.

20160004

Urheberrecht / Lizenzen

Creative Commons Namensnennung - Nicht-kommerziell - Keine Bearbeitung 3.0 Unported (CC BY-NC-ND 3.0)

ISSN

1613-4516

Page URI

https://pub.uni-bielefeld.de/record/2916589

Zitieren

Hamzeiy H, Suluyayla R, Brinkrolf C, Janowski SJ, Hofestädt R, Allmer J. Visualization and Analysis of MicroRNAs within KEGG Pathways using VANESA. JOURNAL OF INTEGRATIVE BIOINFORMATICS. 2017;14(1).

Hamzeiy, H., Suluyayla, R., Brinkrolf, C., Janowski, S. J., Hofestädt, R., & Allmer, J. (2017). Visualization and Analysis of MicroRNAs within KEGG Pathways using VANESA. JOURNAL OF INTEGRATIVE BIOINFORMATICS, 14(1). doi:10.1515/jib-2016-0004

Hamzeiy, Hamid, Suluyayla, Rabia, Brinkrolf, Christoph, Janowski, Sebastian Jan, Hofestädt, Ralf, and Allmer, Jens. 2017. “Visualization and Analysis of MicroRNAs within KEGG Pathways using VANESA”. JOURNAL OF INTEGRATIVE BIOINFORMATICS 14 (1).

Hamzeiy, H., Suluyayla, R., Brinkrolf, C., Janowski, S. J., Hofestädt, R., and Allmer, J. (2017). Visualization and Analysis of MicroRNAs within KEGG Pathways using VANESA. JOURNAL OF INTEGRATIVE BIOINFORMATICS 14.

Hamzeiy, H., et al., 2017. Visualization and Analysis of MicroRNAs within KEGG Pathways using VANESA. JOURNAL OF INTEGRATIVE BIOINFORMATICS, 14(1).

H. Hamzeiy, et al., “Visualization and Analysis of MicroRNAs within KEGG Pathways using VANESA”, JOURNAL OF INTEGRATIVE BIOINFORMATICS, vol. 14, 2017.

Hamzeiy, H., Suluyayla, R., Brinkrolf, C., Janowski, S.J., Hofestädt, R., Allmer, J.: Visualization and Analysis of MicroRNAs within KEGG Pathways using VANESA. JOURNAL OF INTEGRATIVE BIOINFORMATICS. 14, (2017).

Hamzeiy, Hamid, Suluyayla, Rabia, Brinkrolf, Christoph, Janowski, Sebastian Jan, Hofestädt, Ralf, and Allmer, Jens. “Visualization and Analysis of MicroRNAs within KEGG Pathways using VANESA”. JOURNAL OF INTEGRATIVE BIOINFORMATICS 14.1 (2017).

28 References

Daten bereitgestellt von Europe PubMed Central.

VANESA - a software application for the visualization and analysis of networks in system biology applications.
Brinkrolf C, Janowski SJ, Kormeier B, Lewinski M, Hippe K, Borck D, Hofestadt R., J Integr Bioinform 11(2), 2014
PMID: 24953454

miRGen : a database for the study of animal microRNA genomic organization and function Acids
Megraw, Res 35(), 2007

BioDWH: a data warehouse kit for life science data integration.
Topel T, Kormeier B, Klassen A, Hofestadt R., J Integr Bioinform 5(2), 2008
PMID: 20134070

PID : the pathway interaction database Acids
Schaefer, Res 37(), 2009

CluePedia Cytoscape plugin: pathway insights using integrated experimental and in silico data.
Bindea G, Galon J, Mlecnik B., Bioinformatics 29(5), 2013
PMID: 23325622

miRBase : integrating microRNA annotation and deep - sequencing data Acids
Kozomara, Res 39(), 2011

CellMiner a web - based suite of genomic and pharmacologic tools to explore transcript and drug patterns in the NCI - cell line set
Reinhold, Cancer Res 60(), 2012

DIANA - microT web server : elucidating microRNA functions through target prediction Acids
Maragkakis, Res 37(), 2009

Switching from repression to activation: microRNAs can up-regulate translation.
Vasudevan S, Tong Y, Steitz JA., Science 318(5858), 2007
PMID: 18048652

Using the KEGG database resource Protoc Chapter Unit
Aoki, Curr Bioinformatics (), 2005

Multiple microRNAs modulate p expression by directly targeting its untranslated region
Wu, Oncogene 21(), 2010

Cytoscape: a software environment for integrated models of biomolecular interaction networks.
Shannon P, Markiel A, Ozier O, Baliga NS, Wang JT, Ramage D, Amin N, Schwikowski B, Ideker T., Genome Res. 13(11), 2003
PMID: 14597658

miRTar: an integrated system for identifying miRNA-target interactions in human.
Hsu JB, Chiu CM, Hsu SD, Huang WY, Chien CH, Lee TY, Huang HD., BMC Bioinformatics 12(), 2011
PMID: 21791068

MicroRNA - induces expression of genes with complementary promoter sequences
Place, Proc Natl Acad Sci USA 373(), 2008

MicroRNAs: genomics, biogenesis, mechanism, and function.
Bartel DP., Cell 116(2), 2004
PMID: 14744438

miRTarBase : a database curates experimentally validated microRNA - target interactions Acids
Hsu, Res 39(), 2011

MicroRNAs to Nanog and Sox coding regions modulate embryonic stem cell differentiation
Tay, Nature 8(), 2008

BRENDA the enzyme information system in Acids
Scheer, Res 39(), 2011

KEGG for integration and interpretation of large - scale molecular data sets Acids
Kanehisa, Res 40(), 2012

miTALOS: analyzing the tissue-specific regulation of signaling pathways by human and mouse microRNAs.
Kowarsch A, Preusse M, Marr C, Theis FJ., RNA 17(5), 2011
PMID: 21441347

MicroRNAs involved in the mitogen - activated protein kinase cascades pathway during glucose - induced cardiomyocyte hypertrophy
Shen, Am J Pathol 50(), 2011

Conserved seed pairing, often flanked by adenosines, indicates that thousands of human genes are microRNA targets.
Lewis BP, Burge CB, Bartel DP., Cell 120(1), 2005
PMID: 15652477

Human protein reference database update Acids
Keshava, Res 37(), 2009

Benchmark comparison of ab initio microRNA identification methods and software.
Hu LL, Huang Y, Wang QC, Zou Q, Jiang Y., Genet. Mol. Res. 11(4), 2012
PMID: 23096922

Combinatorial microRNA target predictions.
Krek A, Grun D, Poy MN, Wolf R, Rosenberg L, Epstein EJ, MacMenamin P, da Piedade I, Gunsalus KC, Stoffel M, Rajewsky N., Nat. Genet. 37(5), 2005
PMID: 15806104

CyTRANSFINDER: a Cytoscape 3.3 plugin for three-component (TF, gene, miRNA) signal transduction pathway construction.
Politano G, Orso F, Raimo M, Benso A, Savino A, Taverna D, Di Carlo S., BMC Bioinformatics 17(), 2016
PMID: 27059647

MicroRNAs : target recognition and regulatory functions
Bartel, Cell 33(), 2009

MicroRNA - a binds the UTR of ribosomal protein mRNAs and enhances their translation
Ørom, Mol Cell 30(), 2008

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