碱基对
DNA
核糖核酸
生物
基因
计算生物学
基因沉默
遗传学
退火(玻璃)
核酸
费斯特共振能量转移
生物物理学
材料科学
物理
荧光
复合材料
量子力学
作者
Ibrahim I. Cissé,Hajin Kim,Taekjip Ha
摘要
Sequence recognition through base pairing is essential for DNA repair and gene regulation, but the basic rules underlying this process have been unclear. Data from single-molecule fluorescence studies, used to visualize annealing and melting reactions of two untethered strands containing a single mismatch, suggest that seven contiguous base pairs are needed for rapid annealing of DNA and RNA. Sequence recognition through base-pairing is essential for DNA repair and gene regulation, but the basic rules governing this process remain elusive. In particular, the kinetics of annealing between two imperfectly matched strands is not well characterized, despite its potential importance in nucleic acid–based biotechnologies and gene silencing. Here we use single-molecule fluorescence to visualize the multiple annealing and melting reactions of two untethered strands inside a porous vesicle, allowing us to precisely quantify the annealing and melting rates. The data as a function of mismatch position suggest that seven contiguous base pairs are needed for rapid annealing of DNA and RNA. This phenomenological rule of seven may underlie the requirement for seven nucleotides of complementarity to seed gene silencing by small noncoding RNA and may help guide performance improvement in DNA- and RNA-based bio- and nanotechnologies, in which off-target effects can be detrimental.
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