1) site-specific recombination
位点特异性重组技术
1.
Some novel potential approaches to utilize spontaneous or artificial genic male sterility are introduced in this paper by means of plastid transformation, site-specific recombination or some special promoters such as inducible promoters and transiently active promoters that are active only in late embryogensis.
借助基因工程技术,通过质体转化、位点特异性重组技术和特殊启动子的利用,操控可育基因和不育基因的表达,可能繁殖出100%不育株率的普通核雄性不育系,创造出普通核雄性不育性利用新途径。
2.
Some strategies were suggested in this paper to obtain such lines by means of site-specific recombination and the transformation of spontaneous or artificial genic male sterile and fertile genes.
通过利用普通核雄性不育性的可育基因 ,或利用人工核雄性不育性的不育基因和可育基因 ,借助位点特异性重组技术和遗传转化 ,可能实现普通核雄性不育系的商业化繁殖。
2) Site-specific recombination
位点特异性重组
1.
Application of Cre/loxp site-specific recombination technology on transgenic plants;
Cre/loxp位点特异性重组系统在转基因植物中的应用
2.
The Xer/dif system is a site-specific recombination system which is ubiquitous in prokaryotes, and the dif site consists of a specific sequence that can be recognized by the Xer recombinases.
Xer/dif系统是普遍存在于原核生物体内的一种位点特异性重组酶系统,dif位点是Xer重组酶的识别序列。
3.
These results indicated that the expression of φC31 integrase can be driven by ZP3 promoter efficiently and φC31 integrase can mediate the site-specific recombination between attP site and attB site in mouse GV-stage oocytes.
链霉菌噬菌体φC31整合酶是一种位点特异性重组酶(Site-specific recombinase,SSR),可介导链霉菌噬菌体attP位点(Phage attachment site)和链霉菌基因组attB位点(Bacterial attachment site)间的单向重组。
3) site-specific recombination system
位点特异性重组系统
1.
Construction of FLP/frt site-specific recombination system for monocotyledonous plants;
单子叶植物的FLP/frt位点特异性重组系统的构建
4) FLP-FRT site-specific recombination
FLP-FRT位点特异性DNA重组
5) Site-specific recombinase
特异位点重组酶
6) Cre-lox P site-specific recombination
Cre-loxP特异性位点基因重组
补充资料:位点专一重组
分子式:
CAS号:
性质:一种发生在两个顺序极少的相同DNA分子间的重组。重组中的两个DNA分子并不对等交换DNA,通常是其中一个DNA分子整合到另一个分子中。包括保守性重组和复制性重组两类。入噬菌体的整合和切离是典型的保守性重组。转座子Tn3的转座过程中,发生两次重组,并伴随着DNA合成,因此是复制性重组。
CAS号:
性质:一种发生在两个顺序极少的相同DNA分子间的重组。重组中的两个DNA分子并不对等交换DNA,通常是其中一个DNA分子整合到另一个分子中。包括保守性重组和复制性重组两类。入噬菌体的整合和切离是典型的保守性重组。转座子Tn3的转座过程中,发生两次重组,并伴随着DNA合成,因此是复制性重组。
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