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Can voltammetry distinguish glycan isomers?

  • Mojmír Trefulka und Emil Paleček EMAIL logo
Veröffentlicht/Copyright: 28. November 2014
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Chemical Papers
Aus der Zeitschrift Chemical Papers Band 69 Heft 1

Abstract

The analysis of glycan isomers is an important task in glycomics. This study reveals for the first time that two oligosaccharide pentamers can be distinguished electrochemically. 3α,6α-mannopentaose (MPO) and verbascose (VBS) were modified using Os(VI)-temed and the carbohydrate adducts measured directly in the reaction mixture using cyclic voltammetric (CV) and square wave voltammetric (SWV) stripping at the hanging mercury drop electrode. Some CV and SWV responses of MPO were found to differ from those of VBS at full electrode coverage, requiring μM concentrations at short accumulation time-intervals. Similar results were obtained at partial electrode coverage at nM concentrations. These results afford an opportunity for the development of a new simple and inexpensive glycan analysis.

Keywords: oligosaccharide isomers; Os(VI) complexes; chemical modification; voltammetry; mercury electrode

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Received: 2014-5-21
Revised: 2014-6-9
Accepted: 2014-6-10
Published Online: 2014-11-28
Published in Print: 2015-1-1

© 2015 Institute of Chemistry, Slovak Academy of Sciences

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https://doi.org/10.1515/chempap-2015-0010
Schlagwörter für diesen Artikel
oligosaccharide isomers; Os(VI) complexes; chemical modification; voltammetry; mercury electrode

Artikel in diesem Heft

  1. Biosensors – Topical issue
  2. Biosensors containing acetylcholinesterase and butyrylcholinesterase as recognition tools for detection of various compounds
  3. Electrochemical enzymatic biosensors based on metal micro-/nanoparticles-modified electrodes: a review
  4. Gluconobacter sp. cells for manufacturing of effective electrochemical biosensors and biofuel cells
  5. Application of nanomaterials in microbial-cell biosensor constructions
  6. Use of green fluorescent proteins for in vitro biosensing
  7. Biosensors based on molecular beacons
  8. DNA aptamer-based detection of prostate cancer
  9. Can glycoprofiling be helpful in detecting prostate cancer?
  10. Graphene as signal amplifier for preparation of ultrasensitive electrochemical biosensors
  11. Electrochemical nanostructured biosensors: carbon nanotubes versus conductive and semi-conductive nanoparticles
  12. Surface plasmon resonance application in prostate cancer biomarker research
  13. Improvement of enzyme carbon paste-based biosensor using carbon nanotubes for determination of water-soluble analogue of vitamin E
  14. Enzymatic sensor of putrescine with optical oxygen transducer – mathematical model of responses of sensitive layer
  15. Detection of hydrogen peroxide and glucose by enzyme product precipitation on sensor surface
  16. Interfacing of microbial cells with nanoparticles: Simple and cost-effective preparation of a highly sensitive microbial ethanol biosensor
  17. Whole-cell optical biosensor for mercury – operational conditions in saline water
  18. Synthesis of carbon quantum dots for DNA labeling and its electrochemical, fluorescent and electrophoretic characterization
  19. Detection of short oligonucleotide sequences of hepatitis B virus using electrochemical DNA hybridisation biosensor
  20. Aptamer-based detection of thrombin by acoustic method using DNA tetrahedrons as immobilisation platform
  21. Interactions of antifouling monolayers: Energy transfer from excited albumin molecule to phenol red dye
  22. Third-generation oxygen amperometric biosensor based on Trametes hirsuta laccase covalently bound to graphite electrode
  23. Can voltammetry distinguish glycan isomers?
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