Abstract
Background In silico data exploration is a key first step of exploring a research question. There are many publicly available databases and tools that offer appealing features to help with such a task. However, many applications lack exposure or are constrained with unfriendly or outdated user interfaces. Thus, it follows that there are many resources that are relevant to investigation of medical disorders that are underutilized.
Results We developed an R Shiny web application, called Kaleidoscope, to address this challenge. The application offers access to several omics databases and tools to let users explore research questions in silico. The application is designed to be user- friendly with a unified user interface, while also scalable by offering the option of uploading user-defined datasets. We demonstrate the application features with a starting query of a single gene (Disrupted in schizophrenia 1, DISC1) to assess its protein-protein interactions network. We then explore expression levels of the gene network across tissues and cell types in the brain, as well as across 34 schizophrenia versus control differential gene expression datasets.
Conclusion Kaleidoscope provides easy access to several databases and tools under a unified user interface to explore research questions in silico. The web application is open-source and freely available at https://kalganem.shinyapps.io/Kaleidoscope/. This application streamlines the process of in silico data exploration for users and expands the efficient use of these tools to stakeholders without specific bioinformatics expertise.
Competing Interest Statement
The authors have declared no competing interest.
List of abbreviations
- API
- Application programing interface
- PPI
- Protein-protein interaction
- STRING
- Search Tool for the Retrieval of Interacting Genes
- MTG
- middle temporal gyrus
- RPKM
- Reads Per Kilobase Millio
- TPM
- Transcripts Per Kilobase Million
- eQTL
- Expression quantitative trait loci
- SNP
- Single nucleotide polymorphism
- LINCS
- The Library of Integrated Network-Based Cellular Signatures
- iLINCS
- Integrative LINCS
- GWAS
- genome-wide association study
- UTR
- untranslated region
- FPKM
- Fragments Per Kilobase of transcript per Million mapped reads
- CPM
- count per million