Are in the process of adding support to other genome builds. There are a few limitations in the current PubMed ID:https://www.ncbi.nlm.nih.gov/pubmed/28154141 version. Loading more than a thousand genes can slow down the app, depending on the available memory on the system. C-State supports limited input formats which can pose a restriction on users. Future versions will address these FPS-ZM1 site issues and incorporate more diverse features including additional pattern search modules and filters, and a flexible API for easier extensibility.330 genes). Figure S3. Feature counts filters set to identify genes bivalent in ESCs that show a promoter (-5 Kb to +2 Kb of TSS) profile of A) H3K27me3 marks but no H3K4me3 enrichment in GM12878 cells and B) H3K4me3 peaks but no H3K27me3 enrichment in K562 cells. Figure S4. Top: Feature Overlaps filter set to identify genes in ESCs that carry H3K36me3 enrichment at exons (within 0.5 Kb) indicating active transcription. Bottom: Gene Expression filter added to the chain to identify genes that additionally have high transcript levels. Figure S5. Gene Expression scatterplot (Plots and Analysis) showing distribution of expression values of the 97 filtered genes obtained after setting the filter described in Fig. 4, top. Many of these genes appear to be ESC-specific as they show medium to high expression in ESCs (boxed, column 2, X-axis represents expression in ESCs) compared to the other cell types. Figure S6. View accordion displaying the genes filtered for high gene expression only in ESCs. Video demos are available from the C-State website. (DOCX 720 kb)Abbreviations API: Application programming interface; BED: Browser extensible data; ChIP: Chromatin immunoprecipitation; ESC: Embryonic stem cell; FAQ: Frequently asked questions; GUI: Graphical user interface; IGV: Integrative genomics viewer; MVVM: Model-view-view model; NGS: Next generation sequencing; SVG: Scalable vector graphics; TSS: Transcription start site Acknowledgments We thank Saurabh Gaur for the initial prototype of C-State. We are grateful to Hardik Gala and Gunjan Purohit for testing C-State and providing useful feedback. Saketh Saxena is acknowledged for the C-State website design. Funding Publication of this article was funded by grants from the Indo-Australian Biotechnology Fund-Department of Biotechnology (DBT-IABF), Government of India (BT/Indo-Aus/05/36/2010) to JD and RKM and CSIR grant (BSC0121) to RKM. They did not have any role in the design or conclusions of this study. Availability of data and materials C-State can be launched directly or downloaded for offline purposes from our website. Sample datasets, video tutorial, user manual and FAQs can be accessed at the C-State homepage. The source code of C-State is deposited in our github repository (https://github.com/RKMlab/c-state). Project name: C-State Project home page: http://www.ccmb.res.in/rakeshmishra/c-state/ Operating system(s): Platform independent Programming language: HTML5/JavaScript Other requirements: None License: MIT Any restrictions to use by non-academics: None. About this supplement This article has been published as part of BMC Bioinformatics Volume 18 Supplement 10, 2017: Proceedings of the Symposium on Biological Data Visualization (BioVis) at ISMB 2017. The full contents of the supplement are available online at https://bmcbioinformatics.biomedcentral.com/articles/ supplements/volume-18-supplement-10. Authors’ contributions DTS and SS conceived and designed the study. SS conceptualized the application and performed th.