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Have you ever used a genetic tool and wondered what transcriptomic cell types it actually labels in the brain? Now is your chance to help solve this problem, through our MapMySections data challenge! The challenge is to map serial two-photon tomography images from the Genetic Tools Atlas to spatial transcriptomic cell types in the ABC Atlas.
All submissions must be received by 12:00pm (Pacific), on May 30th, 2025 to be considered for the competition.
To celebrate 20 years of open science at the Allen Institute, we are seeking creative answers in the form of hand-drawn artwork or a digital design.
Virtual
Audience
Graduate, Postdocs, Scientists
Full Details About Challenge on our GitHub
About This Challenge
Transgenic lines and viral tools provide highly valuable resources for targeting subpopulations of cells in the brain of mouse (and other species). The recent identification of >5,000 mouse brain cell populations with distinct gene expression patterns and spatial profiles provides opportunities not only to create new cell type-specific genetic tools, but also to better characterize the cell type specificity of existing genetic tools widely used in neuroscience or newly generated in a lab. Accurately defining this connection between genetic tools and known cell types represents a critical step in interpreting the results of experiments using these tools, from functional assays to potential gene therapies. A detailed cell type characterization of the labeled cells can be achieved through a combination of single cell RNA-sequencing and cell sorting; however, such methods take time, are costly, and are prone to bias. A method for directly inferring cell types from fluorescent images without the need for additional experiments would be immediately applicable to thousands of existing genetic tools, greatly improving their utility and interpretability.
Entrants are tasked with 1) creating an algorithm that will accurately match fluorescent images of genetic tools to the most likely spatial transcriptomic cell types and/or 2) presenting such an algorithm as part of a user-friendly tool like MapMyCells. Although images span the whole brain, this challenge is focused on defining cell types in primary visual cortex (VISp)
This challenge includes images and associated cell type specificity for anonymized genetics tools from the Genetics Tools Atlas, a searchable web resource representing information and data on enhancer-adeno-associated viruses (enhancer AAVs) and mouse transgenes. Multiple modalities for summarizing data are included as part of the atlas, but only coronal sections collected using Serial Two-Photon Tomography (STPT) sections will be directly included as part of the challenge. Cell type specificity is assessed by applying single cell RNA-sequencing (SMART-Seq v4) on fluorescently labeled cells from each genetic tool, and then mapping these cells to the published taxonomy of cell types in whole mouse brain (Yao et al, 2023), which are available in the Allen Brain Cell Atlas. Qualitative assessments of cell labeling patterns are also provided for many of the genetic tools.
This data challenge is supported by the National Institute Of Neurological Disorders And Stroke of the National Institutes of Health under Award Number U24NS133077
Mar 14, 2025
Jan 17, 2025
Jan 13, 2025
Mar 15, 2025 | 10:00AM-5:00PM
Jul 7 - 23, 2025
Jul 28 - 30, 2025