Lanthanide-Assisted Function Tailoring of the HOF-Based Logic Gate Sensor Array for Biothiol Detection and Disease Discrimination
The advancement of lanthanide fingerprint sensors characterized by targeted emission responses and low self-fluorescence interference for the detection of biothiols is of considerable importance for the early diagnosis and treatment of cancer. Herein, the lanthanide “personality function tailoring”...
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| Published in | Analytical chemistry (Washington) Vol. 97; no. 3; pp. 1758 - 1766 |
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| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
American Chemical Society
28.01.2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0003-2700 1520-6882 1520-6882 |
| DOI | 10.1021/acs.analchem.4c05296 |
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| Abstract | The advancement of lanthanide fingerprint sensors characterized by targeted emission responses and low self-fluorescence interference for the detection of biothiols is of considerable importance for the early diagnosis and treatment of cancer. Herein, the lanthanide “personality function tailoring” HOF composite sensor array is designed for the specific discrimination of biothiols (GSH, Cys, and Hcy) based on the activation of various luminescent molecules, such as r-AuNCs/luminol via HOF surface proximity. Lumi-HOF@Ce serves as a versatile platform for catalyzing the oxidation of o-phenylenediamine (OPD) to generate yellow fluorescent oligomers, accompanied by the fluorescence attenuation of luminol. HOF@Tb functions as a confinement interface that gathers gold nanoclusters (r-AuNCs) with red fluorescence, facilitating an aggregation-induced emission enhancement (AIEE). The fluorescence properties of AuNCs are subsequently impacted to varying degrees by the Au(I)-thiolate motifs from biothiol rooted in an enhanced ligand–metal charge transfer (LMCT) process. Additionally, the catalytic activity of Lumi-HOF@Ce, which exhibits oxidase-like properties, can be inhibited by different biothiols to varying extents. The five-channel fluorescent array demonstrates exceptional discrimination of biothiol fingerprints, aided by machine learning algorithms. Feature-tailored lanthanide HOF sensor arrays achieve sensitive identification with nearly 100% accuracy in classifying clinical liver cancer samples versus normal samples, using a logic gate strategy. The current strategy of lanthanide function tailoring boosts the suitability of biosensing applications. |
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| AbstractList | The advancement of lanthanide fingerprint sensors characterized by targeted emission responses and low self-fluorescence interference for the detection of biothiols is of considerable importance for the early diagnosis and treatment of cancer. Herein, the lanthanide "personality function tailoring" HOF composite sensor array is designed for the specific discrimination of biothiols (GSH, Cys, and Hcy) based on the activation of various luminescent molecules, such as r-AuNCs/luminol via HOF surface proximity. Lumi-HOF@Ce serves as a versatile platform for catalyzing the oxidation of
-phenylenediamine (OPD) to generate yellow fluorescent oligomers, accompanied by the fluorescence attenuation of luminol. HOF@Tb functions as a confinement interface that gathers gold nanoclusters (r-AuNCs) with red fluorescence, facilitating an aggregation-induced emission enhancement (AIEE). The fluorescence properties of AuNCs are subsequently impacted to varying degrees by the Au(I)-thiolate motifs from biothiol rooted in an enhanced ligand-metal charge transfer (LMCT) process. Additionally, the catalytic activity of Lumi-HOF@Ce, which exhibits oxidase-like properties, can be inhibited by different biothiols to varying extents. The five-channel fluorescent array demonstrates exceptional discrimination of biothiol fingerprints, aided by machine learning algorithms. Feature-tailored lanthanide HOF sensor arrays achieve sensitive identification with nearly 100% accuracy in classifying clinical liver cancer samples versus normal samples, using a logic gate strategy. The current strategy of lanthanide function tailoring boosts the suitability of biosensing applications. The advancement of lanthanide fingerprint sensors characterized by targeted emission responses and low self-fluorescence interference for the detection of biothiols is of considerable importance for the early diagnosis and treatment of cancer. Herein, the lanthanide "personality function tailoring" HOF composite sensor array is designed for the specific discrimination of biothiols (GSH, Cys, and Hcy) based on the activation of various luminescent molecules, such as r-AuNCs/luminol via HOF surface proximity. Lumi-HOF@Ce serves as a versatile platform for catalyzing the oxidation of o-phenylenediamine (OPD) to generate yellow fluorescent oligomers, accompanied by the fluorescence attenuation of luminol. HOF@Tb functions as a confinement interface that gathers gold nanoclusters (r-AuNCs) with red fluorescence, facilitating an aggregation-induced emission enhancement (AIEE). The fluorescence properties of AuNCs are subsequently impacted to varying degrees by the Au(I)-thiolate motifs from biothiol rooted in an enhanced ligand–metal charge transfer (LMCT) process. Additionally, the catalytic activity of Lumi-HOF@Ce, which exhibits oxidase-like properties, can be inhibited by different biothiols to varying extents. The five-channel fluorescent array demonstrates exceptional discrimination of biothiol fingerprints, aided by machine learning algorithms. Feature-tailored lanthanide HOF sensor arrays achieve sensitive identification with nearly 100% accuracy in classifying clinical liver cancer samples versus normal samples, using a logic gate strategy. The current strategy of lanthanide function tailoring boosts the suitability of biosensing applications. The advancement of lanthanide fingerprint sensors characterized by targeted emission responses and low self-fluorescence interference for the detection of biothiols is of considerable importance for the early diagnosis and treatment of cancer. Herein, the lanthanide “personality function tailoring” HOF composite sensor array is designed for the specific discrimination of biothiols (GSH, Cys, and Hcy) based on the activation of various luminescent molecules, such as r-AuNCs/luminol via HOF surface proximity. Lumi-HOF@Ce serves as a versatile platform for catalyzing the oxidation of o-phenylenediamine (OPD) to generate yellow fluorescent oligomers, accompanied by the fluorescence attenuation of luminol. HOF@Tb functions as a confinement interface that gathers gold nanoclusters (r-AuNCs) with red fluorescence, facilitating an aggregation-induced emission enhancement (AIEE). The fluorescence properties of AuNCs are subsequently impacted to varying degrees by the Au(I)-thiolate motifs from biothiol rooted in an enhanced ligand–metal charge transfer (LMCT) process. Additionally, the catalytic activity of Lumi-HOF@Ce, which exhibits oxidase-like properties, can be inhibited by different biothiols to varying extents. The five-channel fluorescent array demonstrates exceptional discrimination of biothiol fingerprints, aided by machine learning algorithms. Feature-tailored lanthanide HOF sensor arrays achieve sensitive identification with nearly 100% accuracy in classifying clinical liver cancer samples versus normal samples, using a logic gate strategy. The current strategy of lanthanide function tailoring boosts the suitability of biosensing applications. The advancement of lanthanide fingerprint sensors characterized by targeted emission responses and low self-fluorescence interference for the detection of biothiols is of considerable importance for the early diagnosis and treatment of cancer. Herein, the lanthanide "personality function tailoring" HOF composite sensor array is designed for the specific discrimination of biothiols (GSH, Cys, and Hcy) based on the activation of various luminescent molecules, such as r-AuNCs/luminol via HOF surface proximity. Lumi-HOF@Ce serves as a versatile platform for catalyzing the oxidation of o-phenylenediamine (OPD) to generate yellow fluorescent oligomers, accompanied by the fluorescence attenuation of luminol. HOF@Tb functions as a confinement interface that gathers gold nanoclusters (r-AuNCs) with red fluorescence, facilitating an aggregation-induced emission enhancement (AIEE). The fluorescence properties of AuNCs are subsequently impacted to varying degrees by the Au(I)-thiolate motifs from biothiol rooted in an enhanced ligand-metal charge transfer (LMCT) process. Additionally, the catalytic activity of Lumi-HOF@Ce, which exhibits oxidase-like properties, can be inhibited by different biothiols to varying extents. The five-channel fluorescent array demonstrates exceptional discrimination of biothiol fingerprints, aided by machine learning algorithms. Feature-tailored lanthanide HOF sensor arrays achieve sensitive identification with nearly 100% accuracy in classifying clinical liver cancer samples versus normal samples, using a logic gate strategy. The current strategy of lanthanide function tailoring boosts the suitability of biosensing applications.The advancement of lanthanide fingerprint sensors characterized by targeted emission responses and low self-fluorescence interference for the detection of biothiols is of considerable importance for the early diagnosis and treatment of cancer. Herein, the lanthanide "personality function tailoring" HOF composite sensor array is designed for the specific discrimination of biothiols (GSH, Cys, and Hcy) based on the activation of various luminescent molecules, such as r-AuNCs/luminol via HOF surface proximity. Lumi-HOF@Ce serves as a versatile platform for catalyzing the oxidation of o-phenylenediamine (OPD) to generate yellow fluorescent oligomers, accompanied by the fluorescence attenuation of luminol. HOF@Tb functions as a confinement interface that gathers gold nanoclusters (r-AuNCs) with red fluorescence, facilitating an aggregation-induced emission enhancement (AIEE). The fluorescence properties of AuNCs are subsequently impacted to varying degrees by the Au(I)-thiolate motifs from biothiol rooted in an enhanced ligand-metal charge transfer (LMCT) process. Additionally, the catalytic activity of Lumi-HOF@Ce, which exhibits oxidase-like properties, can be inhibited by different biothiols to varying extents. The five-channel fluorescent array demonstrates exceptional discrimination of biothiol fingerprints, aided by machine learning algorithms. Feature-tailored lanthanide HOF sensor arrays achieve sensitive identification with nearly 100% accuracy in classifying clinical liver cancer samples versus normal samples, using a logic gate strategy. The current strategy of lanthanide function tailoring boosts the suitability of biosensing applications. |
| Author | Bai, Junjie Du, Cheng Chen, Yafei Wang, Nan Wang, Jianhua Wang, Xin Chen, Mingli Li, Haiyan Lu, Yi Leng, Han |
| AuthorAffiliation | Department of Oncology Analytical and Testing Center Research Center for Analytical Sciences, Department of Chemistry, College of Sciences Northeastern University |
| AuthorAffiliation_xml | – name: Northeastern University – name: Analytical and Testing Center – name: Department of Oncology – name: Research Center for Analytical Sciences, Department of Chemistry, College of Sciences |
| Author_xml | – sequence: 1 givenname: Haiyan surname: Li fullname: Li, Haiyan organization: Research Center for Analytical Sciences, Department of Chemistry, College of Sciences – sequence: 2 givenname: Xin surname: Wang fullname: Wang, Xin organization: Research Center for Analytical Sciences, Department of Chemistry, College of Sciences – sequence: 3 givenname: Yafei surname: Chen fullname: Chen, Yafei organization: Research Center for Analytical Sciences, Department of Chemistry, College of Sciences – sequence: 4 givenname: Han surname: Leng fullname: Leng, Han organization: Research Center for Analytical Sciences, Department of Chemistry, College of Sciences – sequence: 5 givenname: Junjie surname: Bai fullname: Bai, Junjie organization: Research Center for Analytical Sciences, Department of Chemistry, College of Sciences – sequence: 6 givenname: Yi surname: Lu fullname: Lu, Yi organization: Research Center for Analytical Sciences, Department of Chemistry, College of Sciences – sequence: 7 givenname: Nan surname: Wang fullname: Wang, Nan organization: Northeastern University – sequence: 8 givenname: Cheng surname: Du fullname: Du, Cheng email: dc1115010@sina.com organization: Department of Oncology – sequence: 9 givenname: Jianhua orcidid: 0000-0003-2175-3610 surname: Wang fullname: Wang, Jianhua email: jianhuajrz@mail.neu.edu.cn organization: Research Center for Analytical Sciences, Department of Chemistry, College of Sciences – sequence: 10 givenname: Mingli orcidid: 0000-0001-8536-8864 surname: Chen fullname: Chen, Mingli email: chenml@mail.neu.edu.cn organization: Northeastern University |
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| SubjectTerms | Algorithms analytical chemistry Biosensing Techniques Biosensors Catalytic activity Charge transfer Cysteine - analysis early diagnosis Emission Fingerprint verification Fluorescence Glutathione - analysis Gold Gold - chemistry Humans lanthanides Lanthanoid Series Elements - chemistry Liver cancer liver neoplasms Logic Logic circuits Machine learning Metal Nanoparticles - chemistry Nanoclusters nanogold o-Phenylenediamine Oxidation personality Phenylenediamine Sensor arrays Sensors Spectrometry, Fluorescence Sulfhydryl Compounds - analysis |
| Title | Lanthanide-Assisted Function Tailoring of the HOF-Based Logic Gate Sensor Array for Biothiol Detection and Disease Discrimination |
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