肽的二级结构调节单壁碳纳米管的荧光,作为硝基芳烃的伴侣传感器。
Peptide secondary structure modulates single-walled carbon nanotube fluorescence as a chaperone sensor for nitroaromatics.
机构信息
Department of Chemical Engineering, Massachusetts Institute of Technology, Cambridge, MA 02139-4307, USA.
出版信息
Proc Natl Acad Sci U S A. 2011 May 24;108(21):8544-9. doi: 10.1073/pnas.1005512108. Epub 2011 May 9.
Abstract
A class of peptides from the bombolitin family, not previously identified for nitroaromatic recognition, allows near-infrared fluorescent single-walled carbon nanotubes to transduce specific changes in their conformation. In response to the binding of specific nitroaromatic species, such peptide-nanotube complexes form a virtual "chaperone sensor," which reports modulation of the peptide secondary structure via changes in single-walled carbon nanotubes, near-infrared photoluminescence. A split-channel microscope constructed to image quantized spectral wavelength shifts in real time, in response to nitroaromatic adsorption, results in the first single-nanotube imaging of solvatochromic events. The described indirect detection mechanism, as well as an additional exciton quenching-based optical nitroaromatic detection method, illustrate that functionalization of the carbon nanotube surface can result in completely unique sites for recognition, resolvable at the single-molecule level.
摘要
一类来自 bombolitin 家族的肽,以前并未被识别为能够识别硝基芳香族化合物,使得近红外荧光单壁碳纳米管能够转导其构象的特定变化。响应于特定硝基芳香族物质的结合,这种肽-纳米管复合物形成了一个虚拟的“伴侣传感器”,通过单壁碳纳米管近红外光致发光来报告肽二级结构的调制。构建了一个分束显微镜,以实时成像对硝基芳香族吸附的量化光谱波长位移,实现了第一个单纳米管对溶剂化变色事件的成像。所描述的间接检测机制,以及基于激子猝灭的附加光学硝基芳香族检测方法,表明碳纳米管表面的功能化可以导致完全独特的识别位点,可在单分子水平上分辨。
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