PL EN


Preferences help
enabled [disable] Abstract
Number of results
Journal
2005 | 54 | 2-3 | 175-182
Article title

Elektryczne biochipy

Content
Title variants
EN
Electrical biochips
Languages of publication
PL EN
Abstracts
EN
Rapid detection and quantification of microorganisms, particularly their nucleic acids and proteins, appears to be crucial in clinical practice, veterinary medicine, agriculture, basic research as well as in biotechnological factories. Although various techniques were described and are currently used, development of more rapid, more sensitive and quantitative methods seems to be still important. Here we describe a method for rapid detection of nucleic acids, proteins and small molecules, based on electrical biochip technology. This method is quick and sensitive. It can be thus expected that electrical bio-chips will soon be commonly used in biotechnology and medicine.
Keywords
Journal
Year
Volume
54
Issue
2-3
Pages
175-182
Physical description
Dates
published
2005
Contributors
author
  • Uniwersytet Gdański Katedra Biologii Molekularnej, Kładki 24, 80-822 Gdańsk, Polska
  • Uniwersytet Gdański Katedra Biologii Molekularnej, Kładki 24, 80-822 Gdańsk, Polska
References
  • ALFONTA L., BARDEA A., KHERSONSKY O., KATZ E., WILLNER I., 2001. Chronopotentiometry and Faradaic impedance spectroscopy as signal transduction methods for the biocatalytic precipitation of an insoluble product on electrode supports: routes for enzyme sensors, immunosensors and DNA sensors. Biosens. Bioelectr. 16, 675-687.
  • BERGGREN C., STALHANDSKE P., BRUNDELL J., JOHANSSON G., 1999. A feasibility study of a capacitive biosensor for direct detection of DNA hybridization. Electroanalysis 11, 156-160.
  • DE LUMLEY-WOODYEAR T., CAMPBELL C. N., HELLER A., 1996. Direct enzyme amplified electrical recognition of a 30-base model oligonucleotide. J. Am. Chem. Soc. 118, 5504-5505.
  • EDELSTEIN R. L., TAMANAHA C. R., SHEEHAN P. E., MILLER M. M., BASELT D. R., WHITMAN L. J., COLTON R. J., 2000. The BARC biosensor applied to the detection of biological warfare agents. Biosens. Bioelectr. 14, 805-813.
  • GABIG-CIMIŃSKA M., HOLMGREN A., ANDRESEN H., BARKEN K. B., WUMPELMANN M., ALBERS J., HINTSCHE R., BREITENSTEIN A., NEUBAUER A., ŁOŚ M., CZYŻ A., WĘGRZYN G., SILFVERSPARRE G., JURGEN B., SCHWEDER T., ENFORS S.-O., 2004a. Electric chips for rapid detection and quantification of nucleic acids. Biosens. Bioelectr. 19, 537-546.
  • GABIG-CIMIŃSKA M., ŁOŚ M., HOLMGREN A., ALBERS J., CZYŻ A., HINTSCHE R, WĘGRZYN G., ENFORS S.-O., 2004b. Detection of bacteriophage infection and prophage induction in bacterial cultures by means of electric DNA chips. Anal. Biochem., 342, 84-91.
  • GABIG-CIMIŃSKA M., ANDERSEN H., ALBERS J., HINTSHE R., ENFORS S.-O., 2004c. Identification of pathogenic microbial cells and spores by electrochemical detection on a biochip. Microb. Cell Factor. 3, 2.
  • GRAHAM D. L., FERREIRA H. A., FREITAS P. P., 2004. Magnetoresistive-based biosensors and biochips. Trends Biotechnol. 22, 455-462.
  • HAZELTON P. R., GELDERBLOM H. R., 2003. Electron microscopy for rapid diagnosis of emerging infectious agents. Emerging Infect. Dis. 9, 294-303.
  • HIANIK T., GAJDOS V., KRIVANEK R., ORETSKAYA T., METELEV V., VOLKOV E., VADGAMA P., 2001. Amperometric detection of DNA hybridization on a gold surface depends on the orientation of oligonucleotide chains. Bioelectrochemistry 53, 199-204.
  • JONES D. T., SHIRLEY M., WU X., KEIS S., 2000. Bacteriophage infections in the industrial acetone butanol (AB) fermentation processes. J. Mol. Microbiol. Biotechnol. 2, 21-26.
  • LIU Y.-C., WANG C.-M., HSIUNG K.-P., 2001. Comparison of different immobilization methods on quartz crystal microbalance surface in flow injection immunoassay. Anal. Biochem. 299, 130-135.
  • LUCARELLI F., MARRAZZA G., TURNER A. P. F., MASCINI M., 2004. Carbon and gold electrodes as electrochemical transdycers for DNA hybridisation sensors. Biosens. Bioelectron. 19, 515-530.
  • ŁOŚ M., ŁOŚ J. M., BLOHM L., SPILLNER E., GRUNWALD T., ALBERS J., HINTSCHE R., WĘGRZYN G., 2005. Rapid detection of viruses using electrical bio-chips and anti-virion sera. Lett. Appl. Microbiol. 40, 479-485.
  • MARTY J.-L., LECA B., NOUGER T., 1998. Biosensors for the detection of pesticides. Analusis Magazine 26, 144-149.
  • NEBLING E., GRUNWALD T., ALBERS J., SCHAFER P., HINTSCHE R., 2004. Electrical detection of viral DNA using ultramicroelectrode arrays. Anal. Chem. 76, 689-696.
  • PIVIDORI M. I., MERKOCI A., ALEGRET S., 2000. Electrochemical genosensor design: immobilisation of oligonucleotides onto transducer surfaces and detection methods. Biosens. Bioelectron. 15, 291-303.
  • VERNON S. D., FARKAS D. H., UNGER E. R., CHAN V., MILLER D. L., CHEN Y.-P., BLACKBURN G. F., REEVES C. W., 2003. Bioelectronic DNA detection of human papillomaviruses using eSensorTM: a model system for detection of multiple pathogens. BMC Infect. Dis. 3, 12.
  • VETCHA S., WILKINS E., YATES T., 2002. Detection of hantavirus infection in hemolyzed mouse blood using alkaline phosphatase conjutgate. Biosens. Bioelectr. 17, 901-909.
  • WANG J., RIVAS G., FERNANDES J. R., PAZ L. J. L., JIANG M., WAYMIRE R., 1998. Indicator-free elctrochemical DNA hybridization biosensor. Anal. Chim. Acta 375,197-203.
  • YE Y. K., ZHAO J. H., YAN F., ZHU Y. L., JU H. X., 2003. Electrochemical behavior and detection of hepatitis virus DNA PCR production at gold electrode. Biosens. Bioelectr., 18, 1501-1508.
Document Type
Publication order reference
Identifiers
YADDA identifier
bwmeta1.element.bwnjournal-article-ksv54p175kz
JavaScript is turned off in your web browser. Turn it on to take full advantage of this site, then refresh the page.