基因编辑技术-话题@MedSci

#基因编辑技术#

67篇内容 | 1112人围观

关注话题

话题活跃用户

#插入话题

插入图片

最新最热

[GetTopicListResponse(id=2172993, encodeId=960021e2993a7, content=<a href='/topic/show?id=e798524076' target=_blank style='color:#2F92EE;'>#Crispr技术#</a> <a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=IVD技术丨肺炎支原体和衣原体核酸检测（CRISPR/Cas系统）, objectType=article, longId=803459, objectId=694d80345982, topicUrl=null, isHasObj=0, objectCover=https://img.medsci.cn/Random/senior-doctor-at-workplace-VQC5M89.jpg, objectUrl=/article/show_article.do?id=694d80345982, replyNumber=0, likeNumber=31, createdTime=2023-12-05, rootId=0, userName=梅斯管理员, userId=cade5395722, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=上海, moduleDTOList=[ModuleDTO(moduleId=694d80345982, moduleTitle=IVD技术丨肺炎支原体和衣原体核酸检测（CRISPR/Cas系统）, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=694d80345982)], followStatus=false, userIsMember=false, type=null, lengthMark=0), GetTopicListResponse(id=1630178, encodeId=5dbd16301e8db, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=基因编辑技术可100%控制后代性别，新型HIV感染抑制剂可提供长期保护丨一周科技导读, objectType=article, longId=264982, objectId=197a26498282, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=197a26498282, replyNumber=0, likeNumber=31, createdTime=2021-12-13, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=197a26498282, moduleTitle=基因编辑技术可100%控制后代性别，新型HIV感染抑制剂可提供长期保护丨一周科技导读, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=197a26498282)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630177, encodeId=24a116301e725, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=Nature：体内CRISPR基因编辑技术助力永久降血脂, objectType=article, longId=211580, objectId=c67d211580d0, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=c67d211580d0, replyNumber=0, likeNumber=33, createdTime=2021-05-22, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=c67d211580d0, moduleTitle=Nature：体内CRISPR基因编辑技术助力永久降血脂, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=c67d211580d0)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630176, encodeId=f9a316301e67e, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=CRISPR基因编辑技术正在改造胖子为瘦子，是福不是祸？, objectType=article, longId=202016, objectId=fdc22020168c, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=fdc22020168c, replyNumber=0, likeNumber=23, createdTime=2020-10-14, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=fdc22020168c, moduleTitle=CRISPR基因编辑技术正在改造胖子为瘦子，是福不是祸？, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=fdc22020168c)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630175, encodeId=ba7216301e550, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=2020诺贝尔化学奖再出悬疑：基因编辑技术获奖，华裔科学家张锋错失, objectType=article, longId=201813, objectId=6696201813de, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=6696201813de, replyNumber=0, likeNumber=44, createdTime=2020-10-09, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=6696201813de, moduleTitle=2020诺贝尔化学奖再出悬疑：基因编辑技术获奖，华裔科学家张锋错失, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=6696201813de)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630174, encodeId=9d9416301e404, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=SCIENCE：反应最快的CRISPR基因编辑技术了解下？, objectType=article, longId=195945, objectId=7972195945a9, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=7972195945a9, replyNumber=0, likeNumber=38, createdTime=2020-06-18, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=7972195945a9, moduleTitle=SCIENCE：反应最快的CRISPR基因编辑技术了解下？, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=7972195945a9)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630173, encodeId=bfcd16301e33d, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=新型CRISPR基因编辑技术可用于靶向扩增的抗生素抗性基因, objectType=article, longId=184905, objectId=8001184905bb, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=8001184905bb, replyNumber=0, likeNumber=43, createdTime=2019-12-19, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=8001184905bb, moduleTitle=新型CRISPR基因编辑技术可用于靶向扩增的抗生素抗性基因, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=8001184905bb)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630172, encodeId=268416301e273, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=如何利用CRISPR基因编辑技术改良机体白细胞来有效抵御癌症？, objectType=article, longId=184047, objectId=ddab18404e46, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=ddab18404e46, replyNumber=0, likeNumber=33, createdTime=2019-12-04, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=ddab18404e46, moduleTitle=如何利用CRISPR基因编辑技术改良机体白细胞来有效抵御癌症？, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=ddab18404e46)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630171, encodeId=af6516301e121, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=美国首例！CRISPR基因编辑技术应用于癌症治疗, objectType=article, longId=182673, objectId=e1171826e330, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=e1171826e330, replyNumber=0, likeNumber=39, createdTime=2019-11-10, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=e1171826e330, moduleTitle=美国首例！CRISPR基因编辑技术应用于癌症治疗, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=e1171826e330)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630170, encodeId=a47e16301e0fb, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=基因编辑技术有望阻止乳腺癌的生长疗效更好副作用更少, objectType=article, longId=178979, objectId=b67f1e8979c6, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=b67f1e8979c6, replyNumber=0, likeNumber=31, createdTime=2019-09-07, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=b67f1e8979c6, moduleTitle=基因编辑技术有望阻止乳腺癌的生长疗效更好副作用更少, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=b67f1e8979c6)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630169, encodeId=487e16301696a, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=Genome Res：改良版基因编辑技术，竟然是控制肥胖和糖尿病的“神器”？, objectType=article, longId=178724, objectId=4b641e87247b, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=4b641e87247b, replyNumber=0, likeNumber=36, createdTime=2019-09-05, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=4b641e87247b, moduleTitle=Genome Res：改良版基因编辑技术，竟然是控制肥胖和糖尿病的“神器”？, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=4b641e87247b)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630168, encodeId=43ec1630168ba, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=《自然》子刊：人类首次成功用基因编辑技术灭掉HIV, objectType=article, longId=174857, objectId=fdef1e48576f, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=fdef1e48576f, replyNumber=0, likeNumber=40, createdTime=2019-07-06, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=fdef1e48576f, moduleTitle=《自然》子刊：人类首次成功用基因编辑技术灭掉HIV, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=fdef1e48576f)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630167, encodeId=1458163016e87, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=美国研制“心脏病预防针”：用基因编辑技术，3年内人体实验, objectType=article, longId=165931, objectId=1d7816593135, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=1d7816593135, replyNumber=0, likeNumber=35, createdTime=2019-05-14, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=1d7816593135, moduleTitle=美国研制“心脏病预防针”：用基因编辑技术，3年内人体实验, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=1d7816593135)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630166, encodeId=3de41630166d8, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=浙江大学加入默克CRISPR核心合作伙伴，持续发力基因编辑技术, objectType=article, longId=162735, objectId=772e162e3583, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=772e162e3583, replyNumber=0, likeNumber=26, createdTime=2019-03-23, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=772e162e3583, moduleTitle=浙江大学加入默克CRISPR核心合作伙伴，持续发力基因编辑技术, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=772e162e3583)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630165, encodeId=87061630165f2, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=国际干细胞研究学会：在生育治疗中使用基因编辑技术为时过早, objectType=article, longId=154706, objectId=fb0a154e0629, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=fb0a154e0629, replyNumber=0, likeNumber=36, createdTime=2018-12-01, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=fb0a154e0629, moduleTitle=国际干细胞研究学会：在生育治疗中使用基因编辑技术为时过早, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=fb0a154e0629)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630164, encodeId=f9ed16301640f, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=当我们怀疑基因编辑技术时，我们究竟在怀疑什么, objectType=article, longId=154452, objectId=c32a1544522a, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=c32a1544522a, replyNumber=0, likeNumber=34, createdTime=2018-11-28, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=c32a1544522a, moduleTitle=当我们怀疑基因编辑技术时，我们究竟在怀疑什么, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=c32a1544522a)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630163, encodeId=2813163016324, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=Nat Med：姜还是老的辣！两篇论文证明：“老牌”基因编辑技术纠正小鼠的线粒体DNA突变, objectType=article, longId=150540, objectId=08e2150540d7, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=08e2150540d7, replyNumber=0, likeNumber=0, createdTime=2018-10-09, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=08e2150540d7, moduleTitle=Nat Med：姜还是老的辣！两篇论文证明：“老牌”基因编辑技术纠正小鼠的线粒体DNA突变, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=08e2150540d7)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630162, encodeId=056b163016247, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=Nature Commun：PNAs基因编辑技术实现在子宫里治病, objectType=article, longId=144109, objectId=f32a144109f9, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=f32a144109f9, replyNumber=0, likeNumber=43, createdTime=2018-07-12, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=f32a144109f9, moduleTitle=Nature Commun：PNAs基因编辑技术实现在子宫里治病, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=f32a144109f9)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630161, encodeId=621d1630161ed, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=Nat Commun：基因编辑技术用于临床又有新进展, objectType=article, longId=138093, objectId=e2ea13809395, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=e2ea13809395, replyNumber=0, likeNumber=33, createdTime=2018-05-15, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=e2ea13809395, moduleTitle=Nat Commun：基因编辑技术用于临床又有新进展, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=e2ea13809395)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1630160, encodeId=21d7163016001, content=<a href='/topic/show?id=d81a4186e3f' target=_blank style='color:#2F92EE;'>#基因编辑技术#</a>, objectTitle=Science：30年来基因编辑技术发展！, objectType=article, longId=126474, objectId=466e1264e467, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=466e1264e467, replyNumber=0, likeNumber=35, createdTime=2018-01-15, rootId=0, userName=marlenexl, userId=a10c21466636, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=466e1264e467, moduleTitle=Science：30年来基因编辑技术发展！, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=466e1264e467)], followStatus=false, userIsMember=false, type=1, lengthMark=0)] 梅斯话题小助手

基因编辑技术

2020-05-29

梅斯管理员 (审核中...)

前往app查看评论内容

#Crispr技术# #基因编辑技术#

IVD技术丨肺炎支原体和衣原体核酸检测（CRISPR/Cas系统）

2023-12-05发表于上海

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

基因编辑技术可100%控制后代性别，新型HIV感染抑制剂可提供长期保护丨一周科技导读

2021-12-13

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

Nature：体内CRISPR基因编辑技术助力永久降血脂

2021-05-22

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

CRISPR基因编辑技术正在改造胖子为瘦子，是福不是祸？

2020-10-14

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

2020诺贝尔化学奖再出悬疑：基因编辑技术获奖，华裔科学家张锋错失

2020-10-09

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

SCIENCE：反应最快的CRISPR基因编辑技术了解下？

2020-06-18

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

新型CRISPR基因编辑技术可用于靶向扩增的抗生素抗性基因

2019-12-19

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

如何利用CRISPR基因编辑技术改良机体白细胞来有效抵御癌症？

2019-12-04

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

美国首例！CRISPR基因编辑技术应用于癌症治疗

2019-11-10

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

基因编辑技术有望阻止乳腺癌的生长疗效更好副作用更少

2019-09-07

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

Genome Res：改良版基因编辑技术，竟然是控制肥胖和糖尿病的“神器”？

2019-09-05

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

《自然》子刊：人类首次成功用基因编辑技术灭掉HIV

2019-07-06

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

美国研制“心脏病预防针”：用基因编辑技术，3年内人体实验

2019-05-14

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

浙江大学加入默克CRISPR核心合作伙伴，持续发力基因编辑技术

2019-03-23

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

国际干细胞研究学会：在生育治疗中使用基因编辑技术为时过早

2018-12-01

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

当我们怀疑基因编辑技术时，我们究竟在怀疑什么

2018-11-28

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

Nat Med：姜还是老的辣！两篇论文证明：“老牌”基因编辑技术纠正小鼠的线粒体DNA突变

2018-10-09

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

Nature Commun：PNAs基因编辑技术实现在子宫里治病

2018-07-12

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

Nat Commun：基因编辑技术用于临床又有新进展

2018-05-15

marlenexl (审核中...)

前往app查看评论内容

#基因编辑技术#

Science：30年来基因编辑技术发展！

2018-01-15

科室
- - 订阅+
  - 更多科室
工具
服务