CRISPR-Cas9-话题@MedSci

#CRISPR-Cas9#

41篇内容 | 2728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=1360438, encodeId=208e13604380e, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=eLife：挑战常规！利用CRISPR-Cas9突变证实癌基因MELK其实并不致癌, objectType=article, longId=93970, objectId=3897939e0d1, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=3897939e0d1, replyNumber=0, likeNumber=83, createdTime=2017-03-31, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=3897939e0d1, moduleTitle=eLife：挑战常规！利用CRISPR-Cas9突变证实癌基因MELK其实并不致癌, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=3897939e0d1)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360437, encodeId=4c19136043ed4, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=CRISPR 女神全新《Nature Biotechnology》报道 CRISPR-Cas9 新进展, objectType=article, longId=89720, objectId=e03289e202a, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=e03289e202a, replyNumber=0, likeNumber=57, createdTime=2017-02-24, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=e03289e202a, moduleTitle=CRISPR 女神全新《Nature Biotechnology》报道 CRISPR-Cas9 新进展, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=e03289e202a)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360436, encodeId=fca713604363f, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=利用 CRISPR-Cas9 技术让小鼠重见光明, objectType=article, longId=89688, objectId=581e8968859, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=581e8968859, replyNumber=0, likeNumber=81, createdTime=2017-02-24, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=581e8968859, moduleTitle=利用 CRISPR-Cas9 技术让小鼠重见光明, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=581e8968859)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360435, encodeId=30361360435de, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=Cell再发关闭CRISPR-Cas9新方法, objectType=article, longId=86205, objectId=67248620593, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=67248620593, replyNumber=0, likeNumber=104, createdTime=2017-01-01, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=67248620593, moduleTitle=Cell再发关闭CRISPR-Cas9新方法, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=67248620593)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360434, encodeId=55aa136043499, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=我国科学家利用CRISPR-Cas9技术在CAR-T细胞中实现多基因编辑, objectType=article, longId=83956, objectId=ea9b839562a, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=ea9b839562a, replyNumber=0, likeNumber=87, createdTime=2016-12-12, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=ea9b839562a, moduleTitle=我国科学家利用CRISPR-Cas9技术在CAR-T细胞中实现多基因编辑, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=ea9b839562a)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360433, encodeId=eeb7136043384, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=Nature：重磅！首次利用CRISPR-Cas9对非分裂细胞进行基因编辑, objectType=article, longId=82605, objectId=5afe826059d, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=5afe826059d, replyNumber=0, likeNumber=65, createdTime=2016-11-19, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=5afe826059d, moduleTitle=Nature：重磅！首次利用CRISPR-Cas9对非分裂细胞进行基因编辑, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=5afe826059d)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360432, encodeId=f7d81360432f7, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=PNAS：在小鼠细胞中利用CRISPR-Cas9技术高效进行基因组编辑, objectType=article, longId=81654, objectId=170581654c7, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=170581654c7, replyNumber=0, likeNumber=68, createdTime=2016-11-03, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=170581654c7, moduleTitle=PNAS：在小鼠细胞中利用CRISPR-Cas9技术高效进行基因组编辑, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=170581654c7)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360431, encodeId=33bb13604316a, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=JCB：CRISPR-Cas9系统在活细胞中的工作机制取得重大突破, objectType=article, longId=76645, objectId=69cde66454a, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=69cde66454a, replyNumber=0, likeNumber=70, createdTime=2016-09-06, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=69cde66454a, moduleTitle=JCB：CRISPR-Cas9系统在活细胞中的工作机制取得重大突破, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=69cde66454a)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360430, encodeId=5cc21360430c3, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=Caribou宣布CRISPR-Cas9在DNA修复领域新近进展, objectType=article, longId=75634, objectId=a646e5634e1, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=a646e5634e1, replyNumber=0, likeNumber=61, createdTime=2016-08-24, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=a646e5634e1, moduleTitle=Caribou宣布CRISPR-Cas9在DNA修复领域新近进展, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=a646e5634e1)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360429, encodeId=d21a136042944, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=Science：重磅！史上首次利用CRISPR-Cas9让人细胞变身为记忆存储系统, objectType=article, longId=75536, objectId=8003e5536a9, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=8003e5536a9, replyNumber=0, likeNumber=66, createdTime=2016-08-22, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=8003e5536a9, moduleTitle=Science：重磅！史上首次利用CRISPR-Cas9让人细胞变身为记忆存储系统, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=8003e5536a9)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360428, encodeId=53901360428ac, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=Nat Commun：利用非同源性DNA片段将CRISPR-Cas9编辑效率提高高达5倍, objectType=article, longId=75534, objectId=4e99e553438, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=4e99e553438, replyNumber=0, likeNumber=148, createdTime=2016-08-22, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=4e99e553438, moduleTitle=Nat Commun：利用非同源性DNA片段将CRISPR-Cas9编辑效率提高高达5倍, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=4e99e553438)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360427, encodeId=9edf136042e42, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=Nature：科学家利用CRISPR-Cas9技术成功构建出细胞疾病模型, objectType=article, longId=67787, objectId=b5936e78743, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=b5936e78743, replyNumber=0, likeNumber=81, createdTime=2016-05-10, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=b5936e78743, moduleTitle=Nature：科学家利用CRISPR-Cas9技术成功构建出细胞疾病模型, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=b5936e78743)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360426, encodeId=6574136042657, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=NEJM述评：基因编辑系统CRISPR-Cas9终将战胜杜氏肌营养不良症, objectType=article, longId=67367, objectId=cf906e367ce, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=cf906e367ce, replyNumber=0, likeNumber=0, createdTime=2016-05-02, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=cf906e367ce, moduleTitle=NEJM述评：基因编辑系统CRISPR-Cas9终将战胜杜氏肌营养不良症, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=cf906e367ce)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360425, encodeId=6917136042540, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=三篇Nature子刊揭示CRISPR-Cas9技术新策略, objectType=article, longId=63238, objectId=8e9863238ab, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=8e9863238ab, replyNumber=0, likeNumber=0, createdTime=2016-02-16, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=8e9863238ab, moduleTitle=三篇Nature子刊揭示CRISPR-Cas9技术新策略, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=8e9863238ab)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360424, encodeId=5d35136042461, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=Genome Res：新的多重Digenome-seq工具让CRISPR-Cas9飞得更高, objectType=article, longId=63083, objectId=985a6308330, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=985a6308330, replyNumber=0, likeNumber=61, createdTime=2016-02-08, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=985a6308330, moduleTitle=Genome Res：新的多重Digenome-seq工具让CRISPR-Cas9飞得更高, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=985a6308330)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360423, encodeId=3cde136042355, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=CRISPR-Cas9应用重要研究小结, objectType=article, longId=62941, objectId=bb2c62941d8, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=bb2c62941d8, replyNumber=0, likeNumber=164, createdTime=2016-02-04, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=bb2c62941d8, moduleTitle=CRISPR-Cas9应用重要研究小结, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=bb2c62941d8)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360422, encodeId=983a1360422f2, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=CRISPR-Cas9技术发明简史, objectType=article, longId=62720, objectId=def062e208f, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=def062e208f, replyNumber=0, likeNumber=59, createdTime=2016-01-30, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=def062e208f, moduleTitle=CRISPR-Cas9技术发明简史, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=def062e208f)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360421, encodeId=6110136042177, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=PNAS：CRISPR-Cas9系统构建心脏衰竭小鼠模型, objectType=article, longId=62357, objectId=fe096235e6c, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=fe096235e6c, replyNumber=0, likeNumber=0, createdTime=2016-01-23, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=fe096235e6c, moduleTitle=PNAS：CRISPR-Cas9系统构建心脏衰竭小鼠模型, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=fe096235e6c)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360420, encodeId=37cb1360420fd, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=Science：英国科学家申请开放Crispr-cas9人类胚胎编辑权限, objectType=article, longId=62356, objectId=81a3623569c, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=81a3623569c, replyNumber=0, likeNumber=111, createdTime=2016-01-23, rootId=0, userName=liuquan, userId=28b7142, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=81a3623569c, moduleTitle=Science：英国科学家申请开放Crispr-cas9人类胚胎编辑权限, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=81a3623569c)], followStatus=false, userIsMember=false, type=1, lengthMark=0), GetTopicListResponse(id=1360419, encodeId=d944136041999, content=<a href='/topic/show?id=99e5521532' target=_blank style='color:#2F92EE;'>#CRISPR-Cas9#</a>, objectTitle=Crispr-cas9 基因编辑技术成功治愈遗传性肌肉营养不良, objectType=article, longId=61820, objectId=ef256182094, topicUrl=null, isHasObj=0, objectCover=null, objectUrl=/article/show_article.do?id=ef256182094, replyNumber=0, likeNumber=84, createdTime=2016-01-09, rootId=0, userName=heli0118, userId=21015, projectId=1, avatar=, status=1, hasArticle=1, attachment=null, ipAttribution=, moduleDTOList=[ModuleDTO(moduleId=ef256182094, moduleTitle=Crispr-cas9 基因编辑技术成功治愈遗传性肌肉营养不良, moduleType=article, hrefUrl=https://www.medsci.cn/article/show_article.do?id=ef256182094)], followStatus=false, userIsMember=false, type=1, lengthMark=0)] 梅斯话题小助手

CRISPR-Cas9

2020-05-29

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

eLife：挑战常规！利用CRISPR-Cas9突变证实癌基因MELK其实并不致癌

2017-03-31

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

CRISPR 女神全新《Nature Biotechnology》报道 CRISPR-Cas9 新进展

2017-02-24

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

利用 CRISPR-Cas9 技术让小鼠重见光明

2017-02-24

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

Cell再发关闭CRISPR-Cas9新方法

2017-01-01

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

我国科学家利用CRISPR-Cas9技术在CAR-T细胞中实现多基因编辑

2016-12-12

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

Nature：重磅！首次利用CRISPR-Cas9对非分裂细胞进行基因编辑

2016-11-19

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

PNAS：在小鼠细胞中利用CRISPR-Cas9技术高效进行基因组编辑

2016-11-03

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

JCB：CRISPR-Cas9系统在活细胞中的工作机制取得重大突破

2016-09-06

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

Caribou宣布CRISPR-Cas9在DNA修复领域新近进展

2016-08-24

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

Science：重磅！史上首次利用CRISPR-Cas9让人细胞变身为记忆存储系统

2016-08-22

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

Nat Commun：利用非同源性DNA片段将CRISPR-Cas9编辑效率提高高达5倍

2016-08-22

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

Nature：科学家利用CRISPR-Cas9技术成功构建出细胞疾病模型

2016-05-10

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

NEJM述评：基因编辑系统CRISPR-Cas9终将战胜杜氏肌营养不良症

2016-05-02

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

三篇Nature子刊揭示CRISPR-Cas9技术新策略

2016-02-16

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

Genome Res：新的多重Digenome-seq工具让CRISPR-Cas9飞得更高

2016-02-08

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

CRISPR-Cas9应用重要研究小结

2016-02-04

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

CRISPR-Cas9技术发明简史

2016-01-30

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

PNAS：CRISPR-Cas9系统构建心脏衰竭小鼠模型

2016-01-23

liuquan (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

Science：英国科学家申请开放Crispr-cas9人类胚胎编辑权限

2016-01-23

heli0118 (审核中...)

前往app查看评论内容

#CRISPR-Cas9#

Crispr-cas9 基因编辑技术成功治愈遗传性肌肉营养不良

2016-01-09

科室
- - 订阅+
  - 更多科室
工具
服务