University of North Florida
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Stuart Chalk, Ph.D.
Department of Chemistry
University of North Florida
Phone: 1-904-620-1938
Fax: 1-904-620-3535
Email: schalk@unf.edu
Website: @unf

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Nucleic Acids Research

  • Publisher: Oxford University Press
  • FAD Code: NARS
  • CODEN: NARHAD
  • ISSN: 1362-4962
  • Abbreviation: Nucleic Acids Res.
  • DOI Prefix: 10.1093/nar
  • Language: English
  • Comments: Fulltext 1974 V1, Highwire Press

Citations 1

"Detection Of Oligonucleotide Hybridization At Femtomolar Level And Sequence-specific Gene Analysis Of The Arabidopsis Thaliana Leaf Extract With An Ultrasensitive Surface Plasmon Resonance Spectrometer"
Nucleic Acids Res. 2002 Volume 30, Issue 14 Pages E72-11
Fayi Song, Feimeng Zhou, Jun Wang, Nongjian Tao, Jianqiao Lin, Robert L. Vellanoweth, Yvonne Morquecho, and Janel Wheeler-Laidman

Abstract: A flow injection (FI) device Is combined, through the use of a low-volume (4 µL) flow cell, with an ultra-sensitive surface plasmon resonance (SPR) spectrometer equipped with a bi-cell photodiode detector. The application of this novel FI-SPR device for sequence-specific ultratrace analysis of oligodeoxynucleotides (ODNs) and polydeoxynucleotides was demonstrated. Self-assembled monolayers of ODN probes are tethered onto Au films with a mercaptohexyl group at the 3 ends. The FI-SPR provides a detection level (less than or equal to54 fM) 2-3 orders of magnitude lower than other SPR devices and compares well with several ultrasensitive detection methods for labeled DNA targets (e.g. fluorophore-tagged and radiolabeled DNA samples). The technique is also highly selective, since a 47 mer ODN target with a single-base mismatch yielded a much smaller SPR signal, and a specific Interaction was detected when the complementary target was present at 0.001% of the total DNA. The FI-SPR was extended to the measurement of two Individual genes In a cDNA mixture transcribed from an Arabidopsis thaliana leaf mRNA pool. The greatly enhanced sensitivity not only obviates the necessity of DNA labeling, but also significantly reduces sample consumption allowing direct quantification of low abundance mRNAs in cellular samples without amplification.