{"id":2219,"date":"2010-05-07T21:10:00","date_gmt":"2010-05-08T01:10:00","guid":{"rendered":"https:\/\/med.sites.unc.edu\/genetics\/purvislab\/purvislab-2\/"},"modified":"2024-05-30T08:39:57","modified_gmt":"2024-05-30T12:39:57","slug":"purvislab-2","status":"publish","type":"page","link":"https:\/\/www.med.unc.edu\/genetics\/purvislab\/","title":{"rendered":"Welcome to the Purvis Lab!"},"content":{"rendered":"<script>\n\n    (function($) {\n        $(\"body, html\").addClass(\"heels_full_width_overflow\");\n    })(jQuery);\n\n   <\/script>\n   <div style=\"background-color:#000; background-image: url(https:\/\/www.med.unc.edu\/genetics\/purvislab\/wp-content\/uploads\/sites\/618\/2022\/02\/banner_2022.jpg);\" data-speed=\"18\" id=\"parallax-section\" data-type=\"background\" class=\"full-width-contained whitebackground \">\n<style type=\"text\/css\">@media only screen and (max-width: 990px) {#soliloquy-container-2526 .soliloquy-wrapper .soliloquy-viewport,#soliloquy-container-2526 div.soliloquy-html-sentinel { min-height: 420px !important; }}@media only screen and (max-width: 500px) {#soliloquy-container-2526 .soliloquy-wrapper .soliloquy-viewport,#soliloquy-container-2526 div.soliloquy-html-sentinel { min-height: 420px !important; } }@media only screen and (max-width: 440px) {#soliloquy-container-2526 .soliloquy-wrapper .soliloquy-viewport,#soliloquy-container-2526 div.soliloquy-html-sentinel { min-height: 480px !important; } body.home #parallax-section { height: 480px; }}<\/style><div class=\"soliloquy-outer-container\" data-soliloquy-loaded=\"0\"><div aria-live=\"polite\" id=\"soliloquy-container-2381\" class=\"soliloquy-container soliloquy-transition-fade soliloquy-fade soliloquy-arrows-active  soliloquy-theme-base no-js\" style=\"max-width:0px;margin:0 auto 20px;max-width:100%;max-height:none;\"><ul id=\"soliloquy-2381\" class=\"soliloquy-slider soliloquy-slides soliloquy-wrap soliloquy-clear\"><li aria-hidden=\"true\" class=\"soliloquy-item soliloquy-item-1 soliloquy-id-2381-licensedtodifferentiate soliloquy-html-slide\" draggable=\"false\" style=\"list-style:none;\"><div class=\"soliloquy-html-sentinel soliloquy-clear\" style=\"position:static;display:block;visibility:hidden;z-index:-10000;top:0;left:0;width:100%;height:300px;\"><div class=\"soliloquy-html-content soliloquy-clear\"><div class=\"slide\">\n<img decoding=\"async\" class=\"alignright\" alt=\"\" src=\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/wp-content\/uploads\/sites\/618\/2022\/12\/36161508_slider.gif\">\n\n<h2>The Architecture of Cell Cycle Arrest<\/h2>\n                            \n<p>Cell cycle mapping is used to reveal how the cell cycle responds to hypomitogenic, replicative and oxidative stress. Regardless of the phase of cell cycle exit, cells converge on a single state of senescence with a G1-like molecular signature.\n<font color=\"#999999\">\nStallaert W, Taylor SR, Kedziora KM, Johnson MS, Taylor CD, Sobon HK, Young CL, Limas JC, Varblow-Holloway J, Cook JG, Purvis JE. The molecular architecture of cell cycle arrest (2022). Molecular Systems Biology 18(9):e11087.<\/font> <a href=\"https:\/\/www.ncbi.nlm.nih.gov\/pubmed\/36161508\" target=\"_self\" title=\"\">PMID: 36161508<\/a><\/p>\n<\/div><\/div><\/div><\/li><li aria-hidden=\"true\" class=\"soliloquy-item soliloquy-item-2 soliloquy-id-2381-integratingtemporalsinglecellgeneexpressionmodalities soliloquy-html-slide\" draggable=\"false\" style=\"list-style:none;\"><div class=\"soliloquy-html-sentinel soliloquy-clear\" style=\"position:static;display:block;visibility:hidden;z-index:-10000;top:0;left:0;width:100%;height:300px;\"><div class=\"soliloquy-html-content soliloquy-clear\"><div class=\"slide\">\n<img decoding=\"async\" class=\"alignright\" alt=\"\" src=\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/wp-content\/uploads\/sites\/618\/2022\/12\/36064614_slider.gif\">\n\n<h2>Integrating Temporal Gene Expression Modalities<\/h2>\n                            \n<p>Integrated data more accurately infers biological trajectories and achieves increased performance on classifying cells according to perturbation and disease states. In many cases, simple concatenation of spliced and unspliced molecules performs consistently well on classification tasks and can be used over more memory intensive and computationally expensive methods.\n<font color=\"#999999\">\nRanek JS, Stanley N, Purvis JE. Integrating temporal single-cell gene expression modalities for trajectory inference and disease prediction (2022). Genome Biology 23(1):186.<\/font> <a href=\"https:\/\/www.ncbi.nlm.nih.gov\/pubmed\/36064614\" target=\"_self\" title=\"\">PMID: 36064614<\/a><\/p>\n<\/div><\/div><\/div><\/li><li aria-hidden=\"true\" class=\"soliloquy-item soliloquy-item-3 soliloquy-id-2381-fieldtrip soliloquy-html-slide\" draggable=\"false\" style=\"list-style:none;\"><div class=\"soliloquy-html-sentinel soliloquy-clear\" style=\"position:static;display:block;visibility:hidden;z-index:-10000;top:0;left:0;width:100%;height:300px;\"><div class=\"soliloquy-html-content soliloquy-clear\"><div class=\"slide\">\n<img decoding=\"async\" class=\"alignright\" alt=\"\" src=\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/wp-content\/uploads\/sites\/618\/2022\/02\/field_trip.jpg\">\n\n<h2>Field Trip to the Purvis Lab<\/h2>\n                            \n<p>Support from the National Science Foundation helped third-grade students from Durham's Central Park School of Children experience single-cell biology. Students learned the basic anatomy of the cell and how information is stored in DNA. They harvested their own cells, examined them under the microscope, and measured image features such as shape, size, and nuclear intensity.\n<font color=\"#999999\">\n<\/p>\n<\/div><\/div><\/div><\/li><li aria-hidden=\"true\" class=\"soliloquy-item soliloquy-item-4 soliloquy-id-2381-thestructureofthehumancellcycle soliloquy-html-slide\" draggable=\"false\" style=\"list-style:none;\"><div class=\"soliloquy-html-sentinel soliloquy-clear\" style=\"position:static;display:block;visibility:hidden;z-index:-10000;top:0;left:0;width:100%;height:300px;\"><div class=\"soliloquy-html-content soliloquy-clear\"><div class=\"slide\"> <img decoding=\"async\" class=\"alignright\" alt=\"\" src=\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/wp-content\/uploads\/sites\/618\/2022\/02\/34800361_slider.gif\"> <h2>The Structure of the Human Cell Cycle<\/h2> <p>A complete visualization of the human cell cycle is rendered by combining highly multiplexed single-cell imaging and manifold learning. <font color=\"#999999\"> Stallaert W, Kedziora KM, Taylor CD, Zikry TM, Ranek JS, Sobon HK, Taylor SR, Young CL, Cook JG, Purvis JE. The Structure of the Human Cell Cycle. (2021) Cell Systems Nov 17:S2405-4712(21)00418-X<\/font> <a href=\"https:\/\/www.ncbi.nlm.nih.gov\/pubmed\/34800361\" target=\"_self\" title=\"\">PMID: 34800361<\/a><\/p> <\/div><\/div><\/div><\/li><li aria-hidden=\"true\" class=\"soliloquy-item soliloquy-item-5 soliloquy-id-2381-cellularinformationprocessing soliloquy-html-slide\" draggable=\"false\" style=\"list-style:none;\"><div class=\"soliloquy-html-sentinel soliloquy-clear\" style=\"position:static;display:block;visibility:hidden;z-index:-10000;top:0;left:0;width:100%;height:300px;\"><div class=\"soliloquy-html-content soliloquy-clear\"><div class=\"slide\">\n<img decoding=\"async\" class=\"alignright\" alt=\"\" src=\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/wp-content\/uploads\/sites\/618\/2018\/12\/30077635_slider.gif\">\n\n<h2>The Cell Cycle Browser<\/h2>\n                            \n<p>We built an interactive web interface based on real-time reporter data collected in proliferating human cells. This tool facilitates visualizing, organizing, simulating, and predicting the outcomes of perturbing cell-cycle parameters.\n<font color=\"#999999\">\nBorland D, Yi H, Grant GD, Kedziora KM, Chao HX, Haggerty RA, Kumar J, Wolff SC, Cook JG, Purvis JE. The Cell Cycle Browser: An Interactive Tool for Visualizing, Simulating, and Perturbing Cell-Cycle Progression. (2018) Cell Systems 7(2):180-4.<\/font> <a href=\"http:\/\/www.ncbi.nlm.nih.gov\/pubmed\/30077635\">PMID: 30077635<\/a><\/p>\n<\/div><\/div><\/div><\/li><li aria-hidden=\"true\" class=\"soliloquy-item soliloquy-item-6 soliloquy-id-2381-dnadamagecheckpointdynamics soliloquy-html-slide\" draggable=\"false\" style=\"list-style:none;\"><div class=\"soliloquy-html-sentinel soliloquy-clear\" style=\"position:static;display:block;visibility:hidden;z-index:-10000;top:0;left:0;width:100%;height:300px;\"><div class=\"soliloquy-html-content soliloquy-clear\"><div class=\"slide\">\n<img decoding=\"async\" class=\"alignright\" alt=\"\" src=\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/wp-content\/uploads\/sites\/618\/2018\/04\/Chao-splash.jpg\">\n\n<h2>DNA Damage Checkpoint Dynamics<\/h2>\n                            \n<p>Each cell-cycle phase shows a distinct sensitivity and temporal response to DNA damage, explaining why differences in the timing of DNA damage can lead to heterogeneous cell fate outcomes.\n<font color=\"#999999\">\nChao HX, Poovey CE, Privette AA, Grant GD, Chao HY, Cook JG, Purvis JE. Orchestration of DNA Damage Checkpoint Dynamics across the Human Cell Cycle. (2017) Cell Systems 5(5):445-459.e5.<\/font> <a href=\"https:\/\/www.ncbi.nlm.nih.gov\/pubmed\/29102360\" title=\"\">PMID: 29102360<\/a><\/p>\n<\/div><\/div><\/div><\/li><\/ul><\/div><noscript><div class=\"soliloquy-no-js\" style=\"display:none;visibility:hidden;height:0;line-height:0;opacity:0;\"><\/div><\/noscript><\/div>\n<\/div>\n<h3 style=\"text-align: center;\">We build computational models to understand how cells make decisions. We are especially interested in the organization and dynamics of the human cell cycle as well as early cell fate decisions during embryonic development.<\/h3>\n","protected":false},"excerpt":{"rendered":"<p>We build computational models to understand how cells make decisions. We are especially interested in the organization and dynamics of the human cell cycle as well as early cell fate decisions during embryonic development.<\/p>\n","protected":false},"author":1369,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"footnotes":"","_links_to":"","_links_to_target":""},"class_list":["post-2219","page","type-page","status-publish","hentry","odd"],"acf":[],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v26.8 - https:\/\/yoast.com\/product\/yoast-seo-wordpress\/ -->\n<title>Welcome to the Purvis Lab! - Purvis Lab<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"Welcome to the Purvis Lab! - Purvis Lab\" \/>\n<meta property=\"og:description\" content=\"We build computational models to understand how cells make decisions. We are especially interested in the organization and dynamics of the human cell cycle as well as early cell fate decisions during embryonic development.\" \/>\n<meta property=\"og:url\" content=\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/\" \/>\n<meta property=\"og:site_name\" content=\"Purvis Lab\" \/>\n<meta property=\"article:modified_time\" content=\"2024-05-30T12:39:57+00:00\" \/>\n<meta name=\"twitter:card\" content=\"summary_large_image\" \/>\n<script type=\"application\/ld+json\" class=\"yoast-schema-graph\">{\"@context\":\"https:\/\/schema.org\",\"@graph\":[{\"@type\":\"WebPage\",\"@id\":\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/\",\"url\":\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/\",\"name\":\"Welcome to the Purvis Lab! - Purvis Lab\",\"isPartOf\":{\"@id\":\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/#website\"},\"datePublished\":\"2010-05-08T01:10:00+00:00\",\"dateModified\":\"2024-05-30T12:39:57+00:00\",\"breadcrumb\":{\"@id\":\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/#breadcrumb\"},\"inLanguage\":\"en-US\",\"potentialAction\":[{\"@type\":\"ReadAction\",\"target\":[\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/\"]}]},{\"@type\":\"BreadcrumbList\",\"@id\":\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/#breadcrumb\",\"itemListElement\":[{\"@type\":\"ListItem\",\"position\":1,\"name\":\"Home\",\"item\":\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/\"},{\"@type\":\"ListItem\",\"position\":2,\"name\":\"Welcome to the Purvis Lab!\"}]},{\"@type\":\"WebSite\",\"@id\":\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/#website\",\"url\":\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/\",\"name\":\"Purvis Lab\",\"description\":\"Department of Genetics\",\"potentialAction\":[{\"@type\":\"SearchAction\",\"target\":{\"@type\":\"EntryPoint\",\"urlTemplate\":\"https:\/\/www.med.unc.edu\/genetics\/purvislab\/?s={search_term_string}\"},\"query-input\":{\"@type\":\"PropertyValueSpecification\",\"valueRequired\":true,\"valueName\":\"search_term_string\"}}],\"inLanguage\":\"en-US\"}]}<\/script>\n<!-- \/ Yoast SEO plugin. -->","yoast_head_json":{"title":"Welcome to the Purvis Lab! - Purvis Lab","robots":{"index":"index","follow":"follow","max-snippet":"max-snippet:-1","max-image-preview":"max-image-preview:large","max-video-preview":"max-video-preview:-1"},"canonical":"https:\/\/www.med.unc.edu\/genetics\/purvislab\/","og_locale":"en_US","og_type":"article","og_title":"Welcome to the Purvis Lab! - Purvis Lab","og_description":"We build computational models to understand how cells make decisions. 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