寡核苷酸
DNA
生物传感器
序列(生物学)
生物分子
聚噻吩
低聚物限制
生物物理学
DNA测序
化学
杂交探针
重复序列
A-DNA
荧光
DNA–DNA杂交
生物化学
生物
聚合物
基因组
基因
光学
导电聚合物
有机化学
物理
作者
Isabelle Charlebois,Catherine Gravel,Naoual Arrad,Maurice Boissinot,Michel G. Bergeron,Mario Leclerc
标识
DOI:10.1002/mabi.201200469
摘要
Abstract DNA hybridization is a universal and specific mechanism for the recognition of biological targets. Some cationic polythiophene transducers sensitive to DNA structure have been previously utilized to detect such biomolecules. Further characterization of these systems indicates that both DNA sequence composition and length modulate the biosensor performance. It appears that different repeated sequence patterns cause different conformational changes of the polythiophene, from a more relaxed form to an extremely rigid one. A length difference between the DNA oligonucleotide probe and target has a detrimental effect on the fluorescent signal, but it can be attenuated by changing the sequence composition of the protruding target sequence. This demonstrates that the nature of DNA can be critical for hybridization‐based detection systems. magnified image
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