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Talanta

Volumn 129, Issue , 2014, Pages 539-544

A fluorescence glucose sensor based on pH induced conformational switch of i-motif DNA

(5) Ke, Qingqing a,b Zheng, Yu a Yang, Fan a Zhang, Hanchang b Yang, Xiurong a

a CHANGCHUN INSTITUTE OF APPLIED CHEMISTRY (China)

b UNIVERSITY OF SCIENCE AND TECHNOLOGY OF CHINA (China)

Author keywords

Fluorescence; Glucose; I motif DNA; pH

Indexed keywords

BIOSENSORS; DNA; ENERGY TRANSFER; FLUORESCENCE; FLUORESCENCE QUENCHING; FLUOROPHORES; GLUCOSE; GLUCOSE SENSORS; PH;

CONFORMATIONAL SWITCHES; FLUORESCENCE BIOSENSORS; GLUCOSE BIOSENSOR; GLUCOSE CONCENTRATION; I-MOTIF DNA; LINEAR RESPONSE RANGE; OPTIMAL EXPERIMENTAL CONDITIONS; SINGLE-STRANDED DNA;

GLUCOSE OXIDASE;

GLUCONIC ACID; GLUCOSE; GLUCOSE BLOOD LEVEL; GLUCOSE OXIDASE; SINGLE STRANDED DNA;

CHEMISTRY; CIRCULAR DICHROISM; CONFORMATION; DOSE RESPONSE; GENETIC PROCEDURES; GLUCOSE BLOOD LEVEL; GLUCOSURIA; HUMAN; LIMIT OF DETECTION; PH; PROCEDURES; SPECTROFLUOROMETRY; STATISTICAL MODEL; URINE;

BIOSENSING TECHNIQUES; BLOOD GLUCOSE; CIRCULAR DICHROISM; DNA, SINGLE-STRANDED; DOSE-RESPONSE RELATIONSHIP, DRUG; GLUCONATES; GLUCOSE; GLUCOSE OXIDASE; GLYCOSURIA; HUMANS; HYDROGEN-ION CONCENTRATION; LIMIT OF DETECTION; LINEAR MODELS; NUCLEIC ACID CONFORMATION; SPECTROMETRY, FLUORESCENCE;

EID: 84903836725 PISSN: 00399140 EISSN: None Source Type: Journal
DOI: 10.1016/j.talanta.2014.06.011 Document Type: Article

Times cited : (20)

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