Precision BioSciences reveals ARCUS nuclease enables high efficiency gene insertion in dividing and nondividing cells

Reuters

2025/10/09

Precision BioSciences reveals ARCUS nuclease enables high efficiency gene insertion in dividing and nondividing cells

Precision BioSciences Inc. has announced the publication of new scientific research in the journal Nucleic Acids Research, highlighting the advanced gene editing capabilities of its proprietary ARCUS platform. The peer-reviewed study demonstrates that ARCUS nucleases can achieve high-efficiency gene insertion in both dividing and non-dividing cells, with insertion frequencies reaching 60-90% in dividing cells and 20-40% in non-dividing cells. The research specifically details how the unique 3' overhangs created by ARCUS nucleases facilitate homology-mediated gene insertion, enabling a wide range of precise genome edits-including single base changes, targeted deletions, and the replacement of large DNA segments. These findings, which have already been published, underscore ARCUS's versatility and potential advantages over other genome editing technologies for treating a variety of genetic and infectious diseases.

Disclaimer: This news brief was created by Public Technologies (PUBT) using generative artificial intelligence. While PUBT strives to provide accurate and timely information, this AI-generated content is for informational purposes only and should not be interpreted as financial, investment, or legal advice. Precision BioSciences Inc. published the original content used to generate this news brief via Business Wire (Ref. ID: 20251009453082) on October 09, 2025, and is solely responsible for the information contained therein.

免責聲明：投資有風險，本文並非投資建議，以上內容不應被視為任何金融產品的購買或出售要約、建議或邀請，作者或其他用戶的任何相關討論、評論或帖子也不應被視為此類內容。本文僅供一般參考，不考慮您的個人投資目標、財務狀況或需求。TTM對信息的準確性和完整性不承擔任何責任或保證，投資者應自行研究並在投資前尋求專業建議。

熱議股票

1
2
3
4
5
6
7
8
9
10

{"basename":"/hant","ssrTDKData":{"titleTemplate":"%s - 老虎證券","title":"老虎证券全球投资理财平台| 一站式投资美股新股港股A股","description":"老虎证券助您一站式投资美股，新股，港股，A股等全球金融理财产品。新加坡华人最信赖的在线投资平台，现在加入即享低费用，24/5 无时差炒美股投资理财！","keywords":"老虎證券,老虎證券開戶,老虎券商,老虎證券官網,老虎證券app,tigertrade老虎證券,股票,炒股,新加坡股票交易平臺,投資,投資理財","social":{"ogDescription":"老虎证券助您一站式投资美股，新股，港股，A股等全球金融理财产品。新加坡华人最信赖的在线投资平台，现在加入即享低费用，24/5 无时差炒美股投资理财！","ogImage":"https://c1.itigergrowtha.com/portal5/static/media/og-logo.be62fbe1.png","ogUrl":"https://www.itiger.com/hant/news/2574156459"},"companyName":"老虎證券"},"pageData":{"isMobile":false,"isTiger":false,"isTTM":true,"region":"SGP","license":"TBSG","edition":"fundamental"},"isCrawlerRequest":true,"__swrFallback__":{"@#url:\"https://stock-news.skytigris.cn/v3/news\",params:#id:\"2574156459\",edition:\"fundamental\",auth_exemption:1,,,undefined,":{"share":"https://ttm.financial/m/news/2574156459?lang=zh_TW&edition=fundamental","thumbnail":"","is_english":true,"pubTime":"2025-10-09 19:01","share_image_url":"https://static.laohu8.com/e9f99090a1c2ed51c021029395664489","id":"2574156459","market":"us","top_or_hot":-1,"title":"Precision BioSciences reveals ARCUS nuclease enables high efficiency gene insertion in dividing and nondividing cells","media":"Reuters","content":"<html xmlns=\"http://www.w3.org/1999/xhtml\" xmlns:newsg2=\"http://iptc.org/std/nar/2006-10-01/\" xmlns:xhtml=\"http://www.w3.org/1999/xhtml\"><head><title>\n      Precision BioSciences reveals ARCUS nuclease enables high efficiency gene insertion in dividing and nondividing cells\n    </title></head><body><div xmlns:xsd=\"http://www.w3.org/2001/XMLSchema\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\">\n<p>\n        Precision BioSciences Inc. has announced the publication of new scientific research in the journal Nucleic Acids Research, highlighting the advanced gene editing capabilities of its proprietary ARCUS platform. The peer-reviewed study demonstrates that ARCUS nucleases can achieve high-efficiency gene insertion in both dividing and non-dividing cells, with insertion frequencies reaching 60-90% in dividing cells and 20-40% in non-dividing cells. The research specifically details how the unique 3' overhangs created by ARCUS nucleases facilitate homology-mediated gene insertion, enabling a wide range of precise genome edits-including single base changes, targeted deletions, and the replacement of large DNA segments. These findings, which have already been published, underscore ARCUS's versatility and potential advantages over other genome editing technologies for treating a variety of genetic and infectious diseases.\n      </p>\n</div><div xmlns:xsd=\"http://www.w3.org/2001/XMLSchema\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\">\n<em>Disclaimer: <span>This news brief was created by Public Technologies (PUBT) using generative artificial intelligence. While PUBT strives to provide accurate and timely information, this AI-generated content is for informational purposes only and should not be interpreted as financial, investment, or legal advice. Precision BioSciences Inc. published the original content used to generate this news brief via Business Wire (Ref. ID: 20251009453082) on October 09, 2025, and is solely responsible for the information contained therein.</span></em>\n</div></body></html>","source":null,"html":"<!DOCTYPE html>\n<html>\n<head>\n<meta http-equiv=\"Content-Type\" content=\"text/html; charset=utf-8\" />\n<meta name=\"viewport\" content=\"width=device-width,initial-scale=1.0,minimum-scale=1.0,maximum-scale=1.0,user-scalable=no\"/>\n<meta name=\"format-detection\" content=\"telephone=no,email=no,address=no\" />\n<title>Precision BioSciences reveals ARCUS nuclease enables high efficiency gene insertion in dividing and nondividing cells</title>\n<style type=\"text/css\">\na,abbr,acronym,address,applet,article,aside,audio,b,big,blockquote,body,canvas,caption,center,cite,code,dd,del,details,dfn,div,dl,dt,\nem,embed,fieldset,figcaption,figure,footer,form,h1,h2,h3,h4,h5,h6,header,hgroup,html,i,iframe,img,ins,kbd,label,legend,li,mark,menu,nav,\nobject,ol,output,p,pre,q,ruby,s,samp,section,small,span,strike,strong,sub,summary,sup,table,tbody,td,tfoot,th,thead,time,tr,tt,u,ul,var,video{ font:inherit;margin:0;padding:0;vertical-align:baseline;border:0 }\nbody{ font-size:16px; line-height:1.5; color:#999; background:transparent; }\n.wrapper{ overflow:hidden;word-break:break-all;padding:10px; }\nh1,h2{ font-weight:normal; line-height:1.35; margin-bottom:.6em; }\nh3,h4,h5,h6{ line-height:1.35; margin-bottom:1em; }\nh1{ font-size:24px; }\nh2{ font-size:20px; }\nh3{ font-size:18px; }\nh4{ font-size:16px; }\nh5{ font-size:14px; }\nh6{ font-size:12px; }\np,ul,ol,blockquote,dl,table{ margin:1.2em 0; }\nul,ol{ margin-left:2em; }\nul{ list-style:disc; }\nol{ list-style:decimal; }\nli,li p{ margin:10px 0;}\nimg{ max-width:100%;display:block;margin:0 auto 1em; }\nblockquote{ color:#B5B2B1; border-left:3px solid #aaa; padding:1em; }\nstrong,b{font-weight:bold;}\nem,i{font-style:italic;}\ntable{ width:100%;border-collapse:collapse;border-spacing:1px;margin:1em 0;font-size:.9em; }\nth,td{ padding:5px;text-align:left;border:1px solid #aaa; }\nth{ font-weight:bold;background:#5d5d5d; }\n.symbol-link{font-weight:bold;}\n/* header{ border-bottom:1px solid #494756; } */\n.title{ margin:0 0 8px;line-height:1.3;color:#ddd; }\n.meta {color:#5e5c6d;font-size:13px;margin:0 0 .5em; }\na{text-decoration:none; color:#2a4b87;}\n.meta .head { display: inline-block; overflow: hidden}\n.head .h-thumb { width: 30px; height: 30px; margin: 0; padding: 0; border-radius: 50%; float: left;}\n.head .h-content { margin: 0; padding: 0 0 0 9px; float: left;}\n.head .h-name {font-size: 13px; color: #eee; margin: 0;}\n.head .h-time {font-size: 12.5px; color: #7E829C; margin: 0;}\n.small {font-size: 12.5px; display: inline-block; transform: scale(0.9); -webkit-transform: scale(0.9); transform-origin: left; -webkit-transform-origin: left;}\n.smaller {font-size: 12.5px; display: inline-block; transform: scale(0.8); -webkit-transform: scale(0.8); transform-origin: left; -webkit-transform-origin: left;}\n.bt-text {font-size: 12px;margin: 1.5em 0 0 0}\n.bt-text p {margin: 0}\n</style>\n</head>\n<body>\n<div class=\"wrapper\">\n<header>\n<h2 class=\"title\">\nPrecision BioSciences reveals ARCUS nuclease enables high efficiency gene insertion in dividing and nondividing cells\n</h2>\n<h4 class=\"meta\">\n<a class=\"head\" href=\"https://laohu8.com/wemedia/1032215980\">\n\n<div class=\"h-thumb\" style=\"background-image:url(https://community-static.tradeup.com/news/4567337cbdf294b657b1fa87c5488b48);background-size:cover;\"></div>\n\n<div class=\"h-content\">\n<p class=\"h-name\">Reuters </p>\n<p class=\"h-time smaller\">2025-10-09 19:01</p>\n</div>\n</a>\n</h4>\n</header>\n<article>\n<html xmlns=\"http://www.w3.org/1999/xhtml\" xmlns:newsg2=\"http://iptc.org/std/nar/2006-10-01/\" xmlns:xhtml=\"http://www.w3.org/1999/xhtml\"><head><title>\n      Precision BioSciences reveals ARCUS nuclease enables high efficiency gene insertion in dividing and nondividing cells\n    </title></head><body><div xmlns:xsd=\"http://www.w3.org/2001/XMLSchema\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\">\n<p>\n        Precision BioSciences Inc. has announced the publication of new scientific research in the journal Nucleic Acids Research, highlighting the advanced gene editing capabilities of its proprietary ARCUS platform. The peer-reviewed study demonstrates that ARCUS nucleases can achieve high-efficiency gene insertion in both dividing and non-dividing cells, with insertion frequencies reaching 60-90% in dividing cells and 20-40% in non-dividing cells. The research specifically details how the unique 3' overhangs created by ARCUS nucleases facilitate homology-mediated gene insertion, enabling a wide range of precise genome edits-including single base changes, targeted deletions, and the replacement of large DNA segments. These findings, which have already been published, underscore ARCUS's versatility and potential advantages over other genome editing technologies for treating a variety of genetic and infectious diseases.\n      </p>\n</div><div xmlns:xsd=\"http://www.w3.org/2001/XMLSchema\" xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\">\n<em>Disclaimer: <span>This news brief was created by Public Technologies (PUBT) using generative artificial intelligence. While PUBT strives to provide accurate and timely information, this AI-generated content is for informational purposes only and should not be interpreted as financial, investment, or legal advice. Precision BioSciences Inc. published the original content used to generate this news brief via Business Wire (Ref. ID: 20251009453082) on October 09, 2025, and is solely responsible for the information contained therein.</span></em>\n</div></body></html>\n</article>\n</div>\n</body>\n</html>\n","isBrief":false,"type":0,"news_type":1,"symbol":"BK4139","symbol_name":"生物科技","start_time":0,"source_url":"https://api.refinitiv.com/data/news/v1/stories/urn:newsml:reuters.com:20251009:nNDL9fKQKk:1","article_id":"2574156459","we_media_id":"1032215980","thumbnails":[],"rights":null,"url":"https://stock-news.laohu8.com/highlight/detail?id=2574156459","pubTimestamp":1760007711,"columns":[],"sourceInfo":null,"weMediaInfo":{"media_name":"Reuters","introduction":"Reuters.com brings you the latest news from around the world, covering breaking news in markets, business, politics, entertainment and technology","home_visible":1,"id":"1032215980","head_image":"https://community-static.tradeup.com/news/4567337cbdf294b657b1fa87c5488b48"},"summary":"Precision BioSciences Inc. has announced the publication of new scientific research in the journal Nucleic Acids Research, highlighting the advanced gene editing capabilities of its proprietary ARCUS platform. The peer-reviewed study demonstrates that ARCUS nucleases can achieve high-efficiency gene insertion in both dividing and non-dividing cells, with insertion frequencies reaching 60-90% in dividing cells and 20-40% in non-dividing cells. The research specifically details how the unique 3' overhangs created by ARCUS nucleases facilitate homology-mediated gene insertion, enabling a wide range of precise genome edits-including single base changes, targeted deletions, and the replacement of large DNA segments. These findings, which have already been published, underscore ARCUS's versatility and potential advantages over other genome editing technologies for treating a variety of genetic and infectious diseases.Disclaimer: This news brief was created by Public Technologies  using gener","collect":0,"end_time":0,"defaultTopTitle":"","property":[],"viewcount":null,"language":"en","relate_stocks":{"BK4139":"生物科技","DTIL":"Precision Biosciences Inc"},"translate_title":"Precision BioSciences揭示ARCUS核酸酶可在分裂和非分裂细胞中高效插入基因","themeId":null,"isJumpTheme":false,"ttsUrl":null,"symbols_score_info":{"DTIL":0.9},"content_text":"Precision BioSciences reveals ARCUS nuclease enables high efficiency gene insertion in dividing and nondividing cells\n    \n\n        Precision BioSciences Inc. has announced the publication of new scientific research in the journal Nucleic Acids Research, highlighting the advanced gene editing capabilities of its proprietary ARCUS platform. The peer-reviewed study demonstrates that ARCUS nucleases can achieve high-efficiency gene insertion in both dividing and non-dividing cells, with insertion frequencies reaching 60-90% in dividing cells and 20-40% in non-dividing cells. The research specifically details how the unique 3' overhangs created by ARCUS nucleases facilitate homology-mediated gene insertion, enabling a wide range of precise genome edits-including single base changes, targeted deletions, and the replacement of large DNA segments. These findings, which have already been published, underscore ARCUS's versatility and potential advantages over other genome editing technologies for treating a variety of genetic and infectious diseases.\n      \n\nDisclaimer: This news brief was created by Public Technologies (PUBT) using generative artificial intelligence. While PUBT strives to provide accurate and timely information, this AI-generated content is for informational purposes only and should not be interpreted as financial, investment, or legal advice. Precision BioSciences Inc. published the original content used to generate this news brief via Business Wire (Ref. ID: 20251009453082) on October 09, 2025, and is solely responsible for the information contained therein.","kind":"highlight","is_publish_news":true,"is_publish_highlight":false,"is_publish_live":false,"is_publish_wemedia":null,"editions":null,"column":"","sentiment":"1","news_tag":"","news_rank":0,"symbols":[],"gpt_button":0,"need_auth":false,"code":"91000000","status":"200"}}}