TY - JOUR
T1 - DNA Diagnostics: Optical or by Electronics?
AU - Khan, Hadayat Ullah
AU - Knoll, Wolfgang
N1 - KAUST Repository Item: Exported on 2020-10-01
Acknowledgements: It is our great pleasure to acknowledge the collaboration and contribution of many colleagues to this work. In particular, we are grateful to Drs. Z. Bao, R. Corradini, R. Förch, D. Kambhampati, J.J. Kim, T. Liebermann, P.E. Nielsen, H. Park, M. Roberts, D. Yao, and F. Yu.
PY - 2017
Y1 - 2017
N2 - In this paper, we very briefly review DNA biosensors based on optical and electrical detection principles, referring mainly to our past work applying both techniques but here using nearly identical sensor chip surface architectures, i.e., capture probe layers that were prepared based on a pulsed plasma deposition protocol for maleic anhydride and subsequent wet-chemical attachment of the amine-functionalized peptide nucleic acid (PNA) probe oligonucleotides. 15 mer DNA target strands, labeled with Cy5-chromophores that were attached at the 5’ end were used for surface plasmon optical detection and the same target DNA but without label was used in OTFT sensor-based detection where the mere charge density of the bound (hybridized) DNA molecules modulate the source-drain current. The sensing mechanisms and the detection limits of the devices are described in some detail. Both techniques allow for the monitoring of surface hybridization reactions, and offer the capacity to quantitatively discriminate between targets with different degrees of mismatched sequences.
AB - In this paper, we very briefly review DNA biosensors based on optical and electrical detection principles, referring mainly to our past work applying both techniques but here using nearly identical sensor chip surface architectures, i.e., capture probe layers that were prepared based on a pulsed plasma deposition protocol for maleic anhydride and subsequent wet-chemical attachment of the amine-functionalized peptide nucleic acid (PNA) probe oligonucleotides. 15 mer DNA target strands, labeled with Cy5-chromophores that were attached at the 5’ end were used for surface plasmon optical detection and the same target DNA but without label was used in OTFT sensor-based detection where the mere charge density of the bound (hybridized) DNA molecules modulate the source-drain current. The sensing mechanisms and the detection limits of the devices are described in some detail. Both techniques allow for the monitoring of surface hybridization reactions, and offer the capacity to quantitatively discriminate between targets with different degrees of mismatched sequences.
UR - http://hdl.handle.net/10754/619778
UR - http://www.omicsonline.com/open-access/dna-diagnostics-optical-or-by-electronics-2090-4886-S1-001.php?aid=67506
U2 - 10.4172/2090-4886.S1-001
DO - 10.4172/2090-4886.S1-001
M3 - Article
SN - 2090-4886
VL - 6
JO - International Journal of Sensor Networks and Data Communications
JF - International Journal of Sensor Networks and Data Communications
IS - s1
ER -