Contribution of potassium ion and split modes of G-quadruplex to the sensitivity and selectivity of label-free sensor toward DNA detection using fluorescence

► Three split probe designs of G-quadruplex using fluorescence were studied. ► Potassium ion is critical in the stability of hybrids of split probes and target DNA. ► The stability of hybrid decides the sensitivity and selectivity of each design. ► Symmetrically split G-quadruplex is more favorable...

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Published inBiosensors & bioelectronics Vol. 31; no. 1; pp. 316 - 322
Main Authors Ren, Jiangtao, Wang, Jiahai, Wang, Jin, Luedtke, Nathan W., Wang, Erkang
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier B.V 15.01.2012
Elsevier
Subjects
Biological and medical sciences
Biotechnology
DNA - analysis
DNA - genetics
DNA sensor
Fluorescent probe
Fundamental and applied biological sciences. Psychology
G-Quadruplexes
Ions
Label-free
Molecular Probe Techniques - instrumentation
Potassium - chemistry
Single mismatch
Spectrometry, Fluorescence - instrumentation
Split G-quadruplex
Staining and Labeling
Split G-quadruplex
Single mismatch
DNA sensor
Label-free
Fluorescent probe
Fluorescence
Selectivity
Probe
Sensitivity
Detector
DNA
Detection
Potassium
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Abstract ► Three split probe designs of G-quadruplex using fluorescence were studied. ► Potassium ion is critical in the stability of hybrids of split probes and target DNA. ► The stability of hybrid decides the sensitivity and selectivity of each design. ► Symmetrically split G-quadruplex is more favorable for single mismatch discrimination. In recent years, bioanalytical technology based on G-quadruplex has been paid significant attention due to its versatility and stimulus-responsive reconfiguration. Notwithstanding, several key issues for template-directed reassembly of G-quadruplex have not been resolved: what is the key factor for determining the sensitivity and selectivity of split G-quadruplex probes toward target DNA. Therefore, in this study, we designed three pairs of split G-quadruplex probes and investigated the sensitivity and selectivity of these systems in terms of potassium ion concentration and split modes of G-quadruplex. Due to its simplicity and sensitivity, N-methyl-mesoporphyrin (NMM) as fluorescence probes was used to monitor the target-directed reassembling process of G-quadruplex. A G-quadruplex sequence derived from the c-Myc promoter was split into “symmetric” probes, where each fragment contained two runs of guanine residues (2+2), or into “asymmetric” fragments each containing (3+1 or 1+3) runs of guanine residues. In all three cases, the sensitivity of target detection was highly dependent on the thermodynamic stability of the hybrid structure, which can be modulated by potassium ion concentrations. Using a combination of CD, fluorescence, and UV spectroscopy, we found that increasing potassium concentrations can increase the sensitivity of target detection, but can decrease the selectivity of discriminating cognate versus mismatched “target” DNA. The previous argument that asymmetrically split probes were always better than symmetrically split probes in terms of selectivity was not plausible anymore. These results demonstrate how the sensitivities and selectivity of split probes to mutations can be optimized by tuning the thermodynamic stability of the three-way junction complex.
AbstractList In recent years, bioanalytical technology based on G-quadruplex has been paid significant attention due to its versatility and stimulus-responsive reconfiguration. Notwithstanding, several key issues for template-directed reassembly of G-quadruplex have not been resolved: what is the key factor for determining the sensitivity and selectivity of split G-quadruplex probes toward target DNA. Therefore, in this study, we designed three pairs of split G-quadruplex probes and investigated the sensitivity and selectivity of these systems in terms of potassium ion concentration and split modes of G-quadruplex. Due to its simplicity and sensitivity, N-methyl-mesoporphyrin (NMM) as fluorescence probes was used to monitor the target-directed reassembling process of G-quadruplex. A G-quadruplex sequence derived from the c-Myc promoter was split into "symmetric" probes, where each fragment contained two runs of guanine residues (2+2), or into "asymmetric" fragments each containing (3+1 or 1+3) runs of guanine residues. In all three cases, the sensitivity of target detection was highly dependent on the thermodynamic stability of the hybrid structure, which can be modulated by potassium ion concentrations. Using a combination of CD, fluorescence, and UV spectroscopy, we found that increasing potassium concentrations can increase the sensitivity of target detection, but can decrease the selectivity of discriminating cognate versus mismatched "target" DNA. The previous argument that asymmetrically split probes were always better than symmetrically split probes in terms of selectivity was not plausible anymore. These results demonstrate how the sensitivities and selectivity of split probes to mutations can be optimized by tuning the thermodynamic stability of the three-way junction complex.
► Three split probe designs of G-quadruplex using fluorescence were studied. ► Potassium ion is critical in the stability of hybrids of split probes and target DNA. ► The stability of hybrid decides the sensitivity and selectivity of each design. ► Symmetrically split G-quadruplex is more favorable for single mismatch discrimination. In recent years, bioanalytical technology based on G-quadruplex has been paid significant attention due to its versatility and stimulus-responsive reconfiguration. Notwithstanding, several key issues for template-directed reassembly of G-quadruplex have not been resolved: what is the key factor for determining the sensitivity and selectivity of split G-quadruplex probes toward target DNA. Therefore, in this study, we designed three pairs of split G-quadruplex probes and investigated the sensitivity and selectivity of these systems in terms of potassium ion concentration and split modes of G-quadruplex. Due to its simplicity and sensitivity, N-methyl-mesoporphyrin (NMM) as fluorescence probes was used to monitor the target-directed reassembling process of G-quadruplex. A G-quadruplex sequence derived from the c-Myc promoter was split into “symmetric” probes, where each fragment contained two runs of guanine residues (2+2), or into “asymmetric” fragments each containing (3+1 or 1+3) runs of guanine residues. In all three cases, the sensitivity of target detection was highly dependent on the thermodynamic stability of the hybrid structure, which can be modulated by potassium ion concentrations. Using a combination of CD, fluorescence, and UV spectroscopy, we found that increasing potassium concentrations can increase the sensitivity of target detection, but can decrease the selectivity of discriminating cognate versus mismatched “target” DNA. The previous argument that asymmetrically split probes were always better than symmetrically split probes in terms of selectivity was not plausible anymore. These results demonstrate how the sensitivities and selectivity of split probes to mutations can be optimized by tuning the thermodynamic stability of the three-way junction complex.
Author Wang, Jiahai
Luedtke, Nathan W.
Wang, Jin
Wang, Erkang
Ren, Jiangtao
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Issue 1
Keywords Split G-quadruplex
Single mismatch
DNA sensor
Label-free
Fluorescent probe
Fluorescence
Selectivity
Probe
Sensitivity
Detector
DNA
Detection
Potassium
Language English
License CC BY 4.0
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SSID ssj0007190
Score 2.2283869
Snippet ► Three split probe designs of G-quadruplex using fluorescence were studied. ► Potassium ion is critical in the stability of hybrids of split probes and target...
In recent years, bioanalytical technology based on G-quadruplex has been paid significant attention due to its versatility and stimulus-responsive...
SourceID proquest
crossref
pubmed
pascalfrancis
elsevier
SourceType Aggregation Database
Index Database
Publisher
StartPage 316
SubjectTerms Biological and medical sciences
Biotechnology
DNA - analysis
DNA - genetics
DNA sensor
Fluorescent probe
Fundamental and applied biological sciences. Psychology
G-Quadruplexes
Ions
Label-free
Molecular Probe Techniques - instrumentation
Potassium - chemistry
Single mismatch
Spectrometry, Fluorescence - instrumentation
Split G-quadruplex
Staining and Labeling
Title Contribution of potassium ion and split modes of G-quadruplex to the sensitivity and selectivity of label-free sensor toward DNA detection using fluorescence
URI https://dx.doi.org/10.1016/j.bios.2011.10.038
https://www.ncbi.nlm.nih.gov/pubmed/22104647
https://search.proquest.com/docview/913315186
https://search.proquest.com/docview/920791201
Volume 31
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