Regina Treffer scite author profile

SummaryThe development of novel DNA sequencing methods is one of the ongoing challenges in various fields of research seeking to address the demand for sequence information. However, many of these techniques rely on some kind of labeling or amplification steps. Here we investigate the intrinsic properties of tip-enhanced Raman scattering (TERS) towards the development of a novel, label-free, direct sequencing method. It is known that TERS allows the acquisition of spectral information with high lateral resolution and single-molecule sensitivity. In the presented experiments, single stranded adenine and uracil homopolymers were immobilized on different kinds of substrates (mica and gold nanoplates) and TERS experiments were conducted, which demonstrated the reproducibility of the technique. To elucidate the signal contributions from the specific nucleobases, TERS spectra were collected on single stranded calf thymus DNA with arbitrary sequence. The results show that, while the Raman signals with respect to the four nucleobases differ remarkably, specific markers can be determined for each respective base. The combination of sensitivity and reproducibility shows that the crucial demands for a sequencing procedure are met.

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Advances in TERS (tip-enhanced Raman scattering) for biochemical applications

Treffer

Böhme

Deckert‐Gaudig

et al. 2012

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TERS (tip-enhanced Raman scattering) provides exceptional spatial resolution without any need for labelling and has become a versatile tool for biochemical analysis. Two examples will be highlighted here. On the one hand, TERS measurements on a single mitochondrion are discussed, monitoring the oxidation state of the central iron ion of cytochrome c, leading towards a single protein characterization scheme in a natural environment. On the other hand, a novel approach of single molecule analysis is discussed, again based on TERS experiments on DNA and RNA, further highlighting the resolution capabilities of this method.

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Recent advances in single-molecule sequencing

Treffer

Deckert

2010

Current Opinion in Biotechnology

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Label free investigation of biomolecules on the nanometer scale using tip-enhanced Raman spectroscopy

Deckert

Deckert‐Gaudig

Richter

et al. 2010

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Tip-Enhanced Raman Scattering (TERS) Of Uracil Strands

Lin¹,

Deckert‐Gaudig²,

Treffer³

et al. 2010

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Regina Treffer

Distinction of nucleobases – a tip-enhanced Raman approach

Advances in TERS (tip-enhanced Raman scattering) for biochemical applications

Recent advances in single-molecule sequencing

Label free investigation of biomolecules on the nanometer scale using tip-enhanced Raman spectroscopy

Tip-Enhanced Raman Scattering (TERS) Of Uracil Strands

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