We are a bioinformatics research lab in the Center for Computational Biology and the Department of Biomedical Engineering at Johns Hopkins University. We are also affiliated with the Department of Computer Science, the Center for Imaging Science, the Kavli Neuroscience Discovery Institute, and more.
We develop methods for analyzing spatially resolved transcriptomic sequencing and imaging data.
Spatial organization at both the subcellular-level within cells as well as the cellular-level within tissues play important roles in regulating cell identity and function. Recent technological advances have enabled high-throughput spatially resolved transcriptomic profiling at single-molecule and near-single-cell resolution. We develop machine learning and other statistical approaches as open-source computational software to take advantage of this new spatial information in deriving biological insights regarding how spatial organization plays a role in both healthy and diseased settings.
- Brendan F Miller, Feiyang Huang, Lyla Atta, Arpan Sahoo, Jean Fan^. Reference-free cell type deconvolution of pixel-resolution spatially resolved transcriptomics data. Nature Communications. 2022. doi:/10.1038/s41467-022-30033-z
- Lyla Atta, Arpan Sahoo, Jean Fan^. VeloViz: RNA-velocity informed embeddings for visualizing cellular trajectories. Bioinformatics. 2021. /doi:10.1093/bioinformatics/btab653
- Lyla Atta, Jean Fan^. Computational challenges and opportunities in spatially resolved transcriptomic data analysis. Nature Communications. 2021. doi:10.1038/s41467-021-25557-9
- Brendan F Miller, Dhananjay Bambah-Mukku, Catherine Dulac, Xiaowei Zhuang, Jean Fan^. Characterizing spatial gene expression heterogeneity in spatially resolved single-cell transcriptomics data with nonuniform cellular densities. Genome Research. 2021. doi:10.1101/gr.271288.120
- Chenglong Xia*, Jean Fan*, George Emanuel*, Junjie Hao, and Xiaowei Zhuang. Spatial transcriptome profiling by MERFISH reveals subcellular RNA compartmentalization and cell cycle-dependent gene expression. PNAS. 2019. doi:10.1073/pnas.1912459116
We apply these methods to better understand the impact of cellular heterogeneity on cancer pathogenesis and prognosis.
Advancements in high-throughput sequencing and imaging technologies have uncovered tremendous genetic, epigenetic, transcriptional, and spatial heterogeneity in various cancers but their impact on clinical outcomes is not well understood. We establish close collaborations with clinical collaborators to develop and apply bioinformatics methods that contribute to a more complete understanding of how cellular heterogeneity impacts tumor progression, therapeutic resistance, and ultimately clinical prognosis. We are particularly interested in pediatric gliomas.
- Jean Fan^, Kamil Slowikowski, Fan Zhang. Single-cell transcriptomics in cancer - computational challenges and opportunities. Nature Experimental and Molecular Medicine. 2020, doi.org:10.1038/s12276-020-0422-0
- Jean Fan*, Hae-Ock Lee*, Soohyun Lee, Da-eun Ryu, Semin Lee, et al. Linking transcriptional and genetic tumor heterogeneity through allele analysis of single-cell RNA-seq. Genome Research. 2018. doi:10.1101/gr.228080.117
- Lili Wang*, Jean Fan*, Joshua M. Francis, George Georghiou, Sarah Hergert, et al. Integrated single-cell genetic and transcriptional analysis suggests novel drivers of chronic lymphocytic leukemia. Genome Research. 2017. doi:10.1101/gr.217331.116
Latest Publications
- Reference-free cell type deconvolution of pixel-resolution spatially resolved transcriptomics data on 29 April 2022
- Single cell analysis reveals immune dysfunction from the earliest stages of CLL that can be reversed by ibrutinib on 12 January 2022
- VeloViz - RNA-velocity informed embeddings for visualizing cellular trajectories on 28 September 2021
- Computational challenges and opportunities in spatially resolved transcriptomic data analysis on 06 September 2021
- Rewiring of human neurodevelopmental gene regulatory programs by human accelerated regions on 03 September 2021
Latest News
- Prof. Fan is featured in the latest edition of JHU Engineering Magazine. on 31 January 2023
- We welcome Gohta Aihara to the lab! Welcome Gohta! on 27 January 2023
- Prof. Fan teaches Genomic Data Visualization again this semester! on 23 January 2023
- Happy holidays from the JEFworks Lab! on 19 December 2022
- Dr. Fan gives an invited talk at the Spectra of Life EMBL PhD Symposium. on 07 December 2022
Latest Blog Posts
- 3D animation of the brain in R on 08 November 2022
- Ethical Challenges in Biomedical Engineering - Data Collection, Analysis, and Interpretation on 15 October 2022
- I use R to (try to) figure out the cost of medical procedures by analyzing insurance data from the Transparency in Coverage Final Rule on 12 September 2022
- Annotating STdeconvolve Cell-Types with ASCT+B Tables on 30 August 2022
- Deconvolution vs Clustering Analysis: An exploration via simulation on 11 July 2022
- Coloring SVGs in R on 17 June 2022
- Deconvolution vs Clustering Analysis for Multi-cellular Pixel-Resolution Spatially Resolved Transcriptomics Data on 03 May 2022
- Exploring UMAP parameters in visualizing single-cell spatially resolved transcriptomics data on 19 January 2022
- Animating RNA velocity with moving arrows on 15 October 2021
- A tale of two cell populations: integrating RNA velocity information in single cell transcriptomic data visualization with VeloViz on 06 October 2021
