Label-free Detection of Oligonucleotide Microarrays by the Scanning Kelvin Nanoprobe

Zhang, Mingquan

26 February 2009

The Kelvin measurement is a sensitive and label-free method based on work function measurements. Work function, the minimum energy required to extract an electron from a metallic material, can be shifted by ionic charges and dipoles present on the surface. The scanning Kelvin nanoprobe (SKN), a probe-based microscopic imaging device, was used in the detection of work function changes induced by surface-immobilized oligonucleotide / DNA microarrays. The scanning Kelvin nanoprobe was able to study DNA microarrays smaller than 100 µm in size, produced with solution concentrations lower than 10 µmol/L. The limit of detection was estimated to be 15 ng DNA. Better than ± 10% relative variation was achieved for replicate spots. It was observed that higher surface densities of immobilized DNA molecules produced greater work function changes than lower surface densities. Surface saturation with increasing solution concentrations was observed as well. Also, longer strands of DNA produced greater work function changes than shorter strands. Statistical analysis of the results confirmed that non-complementary DNA strands could be differentiated from complementary strands by the Kelvin measurement. Single base mismatches on the complementary DNA strands were also detected by the Kelvin measurement. Different substrate materials were tested in the search for reliable and inexpensive sample slides with satisfactory DNA immobilization efficiency. Materials such as silicon wafers, gold-coated glass slides, gold-coated stainless steel slides, and gold compact discs (CD) were tested. A surface property comparison of gold-coated glass slides and compact discs was made by atomic force microscopy (AFM), and revealed very different microscopic features. The effect of cleaning on gold-coated glass slides was examined by time-of-flight secondary ion mass spectrometry (TOF-SIMS). Technical improvements were made to the SKN equipment progressively. Several revisions to the tip holder design have been employed for better electromagnetic shielding, enhanced robustness and easier tip change. An older signal generator was replaced with a professional PC audio card to provide more stable signal and more convenient on-screen fine tuning, also at a reduced cost. The Labview-based controlling program has also been improved through multiple iterations.

Kelvin probe

DNA

oligonucleotide

microarray

0486

Label-free Detection of Oligonucleotide Microarrays by the Scanning Kelvin Nanoprobe

Zhang, Mingquan

26 February 2009

The Kelvin measurement is a sensitive and label-free method based on work function measurements. Work function, the minimum energy required to extract an electron from a metallic material, can be shifted by ionic charges and dipoles present on the surface. The scanning Kelvin nanoprobe (SKN), a probe-based microscopic imaging device, was used in the detection of work function changes induced by surface-immobilized oligonucleotide / DNA microarrays. The scanning Kelvin nanoprobe was able to study DNA microarrays smaller than 100 µm in size, produced with solution concentrations lower than 10 µmol/L. The limit of detection was estimated to be 15 ng DNA. Better than ± 10% relative variation was achieved for replicate spots. It was observed that higher surface densities of immobilized DNA molecules produced greater work function changes than lower surface densities. Surface saturation with increasing solution concentrations was observed as well. Also, longer strands of DNA produced greater work function changes than shorter strands. Statistical analysis of the results confirmed that non-complementary DNA strands could be differentiated from complementary strands by the Kelvin measurement. Single base mismatches on the complementary DNA strands were also detected by the Kelvin measurement. Different substrate materials were tested in the search for reliable and inexpensive sample slides with satisfactory DNA immobilization efficiency. Materials such as silicon wafers, gold-coated glass slides, gold-coated stainless steel slides, and gold compact discs (CD) were tested. A surface property comparison of gold-coated glass slides and compact discs was made by atomic force microscopy (AFM), and revealed very different microscopic features. The effect of cleaning on gold-coated glass slides was examined by time-of-flight secondary ion mass spectrometry (TOF-SIMS). Technical improvements were made to the SKN equipment progressively. Several revisions to the tip holder design have been employed for better electromagnetic shielding, enhanced robustness and easier tip change. An older signal generator was replaced with a professional PC audio card to provide more stable signal and more convenient on-screen fine tuning, also at a reduced cost. The Labview-based controlling program has also been improved through multiple iterations.

Kelvin probe

DNA

oligonucleotide

microarray

0486

Chiral lanthanide complexes as probe of nucleic acids

Mathieu, Celine E.

January 2001

A series of kinetically stable chiral lanthanide complexes has been developed, with a view to developing responsive probes for use in analysis and in seeking chiral complexes exhibiting selectivity in their interaction with nucleic acids. Firstly a pH sensitive complex has been modified with the aim of tuning the pH range to which it responds to the physiologically useful regime. The synthesis was undertaken of relatively lipophilic 6-butylphenanthridinyl complexes. Their photophysical behaviour was investigated by absorbance and luminescence spectroscopy and the modulation of their emission examined in the pH range 4.5 to 7.5.In addition to their luminescent properties, enantiomerically pure chiral lanthanide complexes permit chiroptical techniques to be used, allowing their interactions with other chiral species to be addressed (e.g. nucleic acids, oligonucleotides).The first series of enantiopure lanthanide complexes has been devised that show several interesting features in binding to oligonucleotides and nucleic acids. These macrocyclic tris-and tetra-amide lanthanide (Eu, Tb or Yb) complexes contain an N-alkyl phenanthridinium unit that allows intercalation between the base pairs of the DNA. Their binding to [(AT)(_6)](_2), [(CG)(_6)](_2) and CT-DNA was monitored by changes in the ligand and metal based luminescence, and in the characteristic CD bands of the oligonucleotides. Binding affinities were assessed using intrinsic methods and the McGhee-von Hippel analysis. Marked differences have been observed in the binding of Eu and Yb complexes as a function of the A and Δ helicity of the complexes, which is itself determined by the configuration of the remote amide substituents. Binding of the A-Eu complex was over 50 times stronger to [(CG)(_6)](_2) compared to [(AT)(_6)](_2), while the left handed Δ-Yb complex showed a different pattern of selectivity. In the europium complex of a related heptadentate tris-amide ligand, the coordination of a DNA phosphate group to the lanthanide centre was suggested by emission and lifetime changes. Another series of chiral tetraamide complexes linked to the 6 position of the phenanthridine moiety was synthesised and studied. An additional stereogenic centre at carbon, alpha to the phenanthridine group was introduced with the aim of tuning the selectivity of binding. A set of four diastereoisomeric ligands was separated and their lanthanide complexes characterised. The binding of their Eu and Yb complexes was evaluated and differences between Eu and Yb complexes persisted. The additional chiral centre did not appear to modify the binding affinity of this series of complexes. Finally, a series of 6-phenanthridinyl complexes was investigated in which the phenanthridine N atom was directly bound to the lanthanide centre. Their affinity for DNA was found to be relatively low, which may be related to their rigid structure.

546

Charakterisierung proteinbasierter Nanopartikel zum Transport von Oligonukleotiden für eine Rezeptor-vermittelte Zellaufnahme

Balthasar, Sabine.

Unknown Date

Universiẗat, Diss., 2005--Frankfurt (Main).

A system for the intracellular generation of triple helix-forming oligonucleotides (TFOs) and the sequence-specific inhibition of human MCP-1 gene expression

Kautz, Kordula.

Unknown Date

University, Diss., 2006--Frankfurt (Main). / Erscheinungsjahr an der Hauptitelstelle: 2005.

Regulationsmechanismen des alpha-adrenerg induzierten hypertrophen Wachstums ventrikulärer Herzmuskelzellen

Schreckenberg, Rolf.

January 2006

Universiẗat, Diss., 2006--Giessen.

Regulationsmechanismen des A-adrenerg induzierten hypertrophen Wachstums ventrikulärer Herzmuskelzellen

Schreckenberg, Rolf

January 1900

Zugl.: Giessen, Univ., Diss., 2006

Hepatobiliäre Aufnahme und Ausscheidung von Oligonukleotiden und Oligonukleotid-Gallensäure-Konjugaten /

Starke, Dieter.

January 1999

Thesis (doctoral)--Universität, Giessen, 1999.

Synthesis, structure, and activity of hybridization probes and immunostimulatory DNA

Patra, Amritraj

January 2008

Zugl.: Karlsruhe, Univ., Diss., 2008

Darstellung und Untersuchung von Modellsystemen für den Ladungstransfer in DNA und zwischen Peptiden und Oligonukleotiden

Mayer-Enthart, Elke.

Unknown Date

Techn. Universiẗat, Diss., 2006--München.