SynEcoSys: Online DemoWatch nowIn this demo we present SynEcoSys, an online multifunctional platform for single cell transcriptomic data analysis and exploration.Next generation sequencing technologies enable the analysis of the transcriptomes of individual cells, providing a higher resolution of gene expression and function at the single cell level. Various single cell data are continuously generated every year, covering fields from scientific research to clinical development.The fast-growing public datasets are collected by distinctive platforms, which are designed to facilitate biological discoveries, disease diagnosis, and new treatments. However, these platforms are hard to meet the urgency of having a unified data integration pipeline to improve comparability between datasets.SynEcoSys by Singleron Biotechnologies currently provides a massive collection of publicly available single cell sequencing dataset, across multiple platforms and species. The platform generates all datasets with a strict and uniform data analysis pipeline and cell marker-based manual annotation, thus facilitating more comprehensive and reliable data mining.Furthermore, SynEcoSys features:Sequencing data of 80000000+ single cellsAutomatic annotation of 2000+ cell typesA curation of major cancer types core datasets, allowing deep data miningStandardized naming and data processing enabling data comparabilityAutomated data analysis and cell type annotationJoin us in this online SynecoSys demoWe will help you understand functions and capabilities of the SynEcoSys database using a series of examples. SynEcoSys is available at: https://www.synecosys.com.To learn more about our Bioinformatics Suite, visit us here.Interested to perform the full suite of single cell data analysis independently?Our 8-week part-time bioinformatics bootcamp helps beginners to quickly become bioinformatics experts. Feel free to reach out for more details.Check out our latest webinars Learn more From Epigenome Atlases to Gene Regulatory Codes - by Prof. Bing Ren (UCSD) Read more Single-Cell Decoding of Cellular Lineages and the Evolution of Plant Exceptional Traits Read more In Vitro Modeling of Parkinson’s Disease with Patient Specific Midbrain Organoids Read more