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WITHDRAWN: High throughput CRISPR perturbation screens identify epigenetic regulators impacting primordial germ cell development | bioRxiv /* */ /* */ <!-- <!-- /*! * yepnope1.5.4 * (c) WTFPL, GPLv2 */ (function(a,b,c){function d(a){return"[object Function]"==o.call(a)}function e(a){return"string"==typeof a}function f(){}function g(a){return!a||"loaded"==a||"complete"==a||"uninitialized"==a}function h(){var a=p.shift();q=1,a?a.t?m(function(){("c"==a.t?B.injectCss:B.injectJs)(a.s,0,a.a,a.x,a.e,1)},0):(a(),h()):q=0}function i(a,c,d,e,f,i,j){function k(b){if(!o&&g(l.readyState)&&(u.r=o=1,!q&&h(),l.onload=l.onreadystatechange=null,b)){"img"!=a&&m(function(){t.removeChild(l)},50);for(var d in y[c])y[c].hasOwnProperty(d)&&y[c][d].onload()}}var j=j||B.errorTimeout,l=b.createElement(a),o=0,r=0,u={t:d,s:c,e:f,a:i,x:j};1===y[c]&&(r=1,y[c]=[]),"object"==a?l.data=c:(l.src=c,l.type=a),l.width=l.height="0",l.onerror=l.onload=l.onreadystatechange=function(){k.call(this,r)},p.splice(e,0,u),"img"!=a&&(r||2===y[c]?(t.insertBefore(l,s?null:n),m(k,j)):y[c].push(l))}function j(a,b,c,d,f){return q=0,b=b||"j",e(a)?i("c"==b?v:u,a,b,this.i++,c,d,f):(p.splice(this.i++,0,a),1==p.length&&h()),this}function k(){var a=B;return a.loader={load:j,i:0},a}var l=b.documentElement,m=a.setTimeout,n=b.getElementsByTagName("script")[0],o={}.toString,p=[],q=0,r="MozAppearance"in l.style,s=r&&!!b.createRange().compareNode,t=s?l:n.parentNode,l=a.opera&&"[object Opera]"==o.call(a.opera),l=!!b.attachEvent&&!l,u=r?"object":l?"script":"img",v=l?"script":u,w=Array.isArray||function(a){return"[object Array]"==o.call(a)},x=[],y={},z={timeout:function(a,b){return b.length&&(a.timeout=b[0]),a}},A,B;B=function(a){function b(a){var a=a.split("!"),b=x.length,c=a.pop(),d=a.length,c={url:c,origUrl:c,prefixes:a},e,f,g;for(f=0;f<d;f++)g=a[f].split("="),(e=z[g.shift()])&&(c=e(c,g));for(f=0;f<b;f++)c=x[f](c);return c}function g(a,e,f,g,h){var i=b(a),j=i.autoCallback;i.url.split(".").pop().split("?").shift(),i.bypass||(e&&(e=d(e)?e:e[a]||e[g]||e[a.split("/").pop().split("?")[0]]),i.instead?i.instead(a,e,f,g,h):(y[i.url]?i.noexec=!0:y[i.url]=1,f.load(i.url,i.forceCSS||!i.forceJS&&"css"==i.url.split(".").pop().split("?").shift()?"c":c,i.noexec,i.attrs,i.timeout),(d(e)||d(j))&&f.load(function(){k(),e&&e(i.origUrl,h,g),j&&j(i.origUrl,h,g),y[i.url]=2})))}function h(a,b){function c(a,c){if(a){if(e(a))c||(j=function(){var a=[].slice.call(arguments);k.apply(this,a),l()}),g(a,j,b,0,h);else if(Object(a)===a)for(n in m=function(){var b=0,c;for(c in a)a.hasOwnProperty(c)&&b++;return b}(),a)a.hasOwnProperty(n)&&(!c&&!--m&&(d(j)?j=function(){var a=[].slice.call(arguments);k.apply(this,a),l()}:j[n]=function(a){return function(){var b=[].slice.call(arguments);a&&a.apply(this,b),l()}}(k[n])),g(a[n],j,b,n,h))}else!c&&l()}var h=!!a.test,i=a.load||a.both,j=a.callback||f,k=j,l=a.complete||f,m,n;c(h?a.yep:a.nope,!!i),i&&c(i)}var i,j,l=this.yepnope.loader;if(e(a))g(a,0,l,0);else if(w(a))for(i=0;i (function(w,d,s,l,i){w[l]=w[l]||[];w[l].push({'gtm.start':new Date().getTime(),event:'gtm.js'});var f=d.getElementsByTagName(s)[0];var j=d.createElement(s);var dl=l!='dataLayer'?'&l='+l:'';j.src='//www.googletagmanager.com/gtm.js?id='+i+dl;j.type='text/javascript';j.async=true;f.parentNode.insertBefore(j,f);})(window,document,'script','dataLayer','GTM-M677548'); Skip to main content Home About Submit ALERTS / RSS Search for this keyword Advanced Search Withdrawn WITHDRAWN: High throughput CRISPR perturbation screens identify epigenetic regulators impacting primordial germ cell development Liangdao Li , View ORCID Profile Xinbao Ding , Alex P. Sheft , View ORCID Profile John C. Schimenti doi: https://doi.org/10.1101/2024.02.26.582097 Liangdao Li 1 Cornell University Find this author on Google Scholar Find this author on PubMed Search for this author on this site Xinbao Ding 1 Cornell University Find this author on Google Scholar Find this author on PubMed Search for this author on this site ORCID record for Xinbao Ding Alex P. Sheft 1 Cornell University Find this author on Google Scholar Find this author on PubMed Search for this author on this site John C. Schimenti 1 Cornell University Find this author on Google Scholar Find this author on PubMed Search for this author on this site ORCID record for John C. Schimenti For correspondence: jcs92{at}cornell.edu Abstract Info/History Metrics Preview PDF Withdrawal Statement The authors have withdrawn this manuscript due this manuscript merging with another preprint (BIORXIV/2024/580543). Therefore, the authors do not wish this work to be cited as reference for the project. If you have any questions, please contact the corresponding author. The merged preprint can be found at doi: 10.1101/2024.02.15.580543” The original version of 580543 described the development and characterization of the engineered mouse embryonic stem cells (ESCs) that could be differentiated into primordial germ cell-like cells (PGCLCs) in a scalable and efficient manner. Those cells were used to conduct the large screen (and other experiments) described in this withdrawn preprint. We merged the two manuscripts at the recommendation of a journal editor to which we sent the two papers for concurrent consideration. There are no substantive differences in the content merged preprint vs. this withdrawn preprint or the original version of 580543. Competing Interest Statement The authors have declared no competing interest. Copyright The copyright holder for this preprint is the author/funder, who has granted bioRxiv a license to display the preprint in perpetuity. All rights reserved. No reuse allowed without permission. View the discussion thread. Back to top Previous Next Posted May 13, 2025. Download PDF Email Thank you for your interest in spreading the word about bioRxiv. NOTE: Your email address is requested solely to identify you as the sender of this article. Your Email * Your Name * Send To * Enter multiple addresses on separate lines or separate them with commas. You are going to email the following WITHDRAWN: High throughput CRISPR perturbation screens identify epigenetic regulators impacting primordial germ cell development Message Subject (Your Name) has forwarded a page to you from bioRxiv Message Body (Your Name) thought you would like to see this page from the bioRxiv website. Your Personal Message CAPTCHA This question is for testing whether or not you are a human visitor and to prevent automated spam submissions. Share WITHDRAWN: High throughput CRISPR perturbation screens identify epigenetic regulators impacting primordial germ cell development Liangdao Li , Xinbao Ding , Alex P. Sheft , John C. Schimenti bioRxiv 2024.02.26.582097; doi: https://doi.org/10.1101/2024.02.26.582097 Share This Article: Copy Citation Tools WITHDRAWN: High throughput CRISPR perturbation screens identify epigenetic regulators impacting primordial germ cell development Liangdao Li , Xinbao Ding , Alex P. Sheft , John C. Schimenti bioRxiv 2024.02.26.582097; doi: https://doi.org/10.1101/2024.02.26.582097 Citation Manager Formats BibTeX Bookends EasyBib EndNote (tagged) EndNote 8 (xml) Medlars Mendeley Papers RefWorks Tagged Ref Manager RIS Zotero Tweet Widget Facebook Like Google Plus One Subject Area Developmental Biology Subject Areas All Articles Animal Behavior and Cognition (7652) Biochemistry (17753) Bioengineering (13939) Bioinformatics (42088) Biophysics (21503) Cancer Biology (18661) Cell Biology (25588) Clinical Trials (138) Developmental Biology (13410) Ecology (19951) Epidemiology (2067) Evolutionary Biology (24383) Genetics (15641) Genomics (22569) Immunology (17782) Microbiology (40506) Molecular Biology (17219) Neuroscience (88832) Paleontology (667) Pathology (2846) Pharmacology and Toxicology (4840) Physiology (7668) Plant Biology (15182) Scientific Communication and Education (2048) Synthetic Biology (4307) Systems Biology (9841) Zoology (2274)
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