Your search keyword '"Thomson, Neil H."' showing total 6 results

1. Wearing a single DNA molecule with an AFM tip

Author

Santos Hernández, Sergio, Barcons Xixons, Víctor|||0000-0002-2919-596X, Font Teixidó, Josep|||0000-0003-1694-6661, Thomson, Neil H., Universitat Politècnica de Catalunya. Departament d'Enginyeria Minera, Industrial i TIC, and Universitat Politècnica de Catalunya. CIRCUIT - Grup de Recerca en Circuits i Sistemes de Comunicació

Subjects

Atomic force microscopy, Attractive, Física [Àrees temàtiques de la UPC], Nanotecnologia, Mica, ADN, Enginyeria electrònica [Àrees temàtiques de la UPC], Critical amplitude, Nanotechnology, Microscòpia de força atòmica, DNA, Repulsive

Abstract

While the fundamental limit on the resolution achieved in an atomic force microscope (AFM) is clearly related to the tip radius, the fact that the tip can creep and/or wear during an experiment is often ignored. This is mainly due to the difficulty in characterizing the tip, and in particular a lack of reliable methods that can achieve this in situ. Here, we provide an in situ method to characterize the tip radius and monitor tip creep and/or wear and biomolecular sample wear in ambient dynamic AFM. This is achieved by monitoring the dynamics of the cantilever and the critical free amplitude to observe a switch from the attractive to the repulsive regime. The method is exemplified on the mechanically heterogeneous sample of single DNA molecules bound to mica mineral surfaces. Simultaneous monitoring of apparent height and width of single DNA molecules while detecting variations in the tip radius R as small as one nanometer are demonstrated. The yield stress can be readily exceeded for sharp tips (R10nm). The ability to know the AFM tip radius in situ and in real-time opens up the future for quantitative nanoscale materials properties determination at the highest possible spatial resolution.

Published

2015

2. The nature of the air-cleaved mica surface.

Author

Christenson, Hugo K. and Thomson, Neil H.

Subjects

*MUSCOVITE, *SURFACE conductivity, *NUCLEATION, *ATOMIC force microscopy, *ELECTROLYTES

Abstract

The accepted image of muscovite mica is that of an inert and atomically smooth surface, easily prepared by cleavage in an ambient atmosphere. Consequently, mica is extensively used a model substrate in many fundamental studies of surface phenomena and as a substrate for AFM imaging of biomolecules. In this review we present evidence from the literature that the above picture is not quite correct. The mica used in experimental work is almost invariably cleaved in laboratory air, where a reaction between the mica surface, atmospheric CO 2 and water occurs immediately after cleavage. The evidence suggests very strongly that as a result the mica surface becomes covered by up to one formula unit of K 2 CO 3 per nm 2 , which is mobile under humid conditions, and crystallises under drier conditions. The properties of mica in air or water vapour cannot be fully understood without reference to the surface K 2 CO 3 , and many studies of the structure of adsorbed water on mica surfaces may need to be revisited. With this new insight, however, the air-cleaved mica should provide exciting opportunities to study phenomena such as two-dimensional ion diffusion, electrolyte effects on surface conductivity, and two-dimensional crystal nucleation. [ABSTRACT FROM AUTHOR]

Published

2016

3. Large fluctuations in the disassembly rate of microtubules revealed by atomic force microscopy

Author

Thomson, Neil H., Kasas, Sandor, Riederer, Beat M., Catsicas, Stefan, Dietler, Giovanni, Kulik, Andrzej J., and Forró, László

Subjects

*ATOMIC force microscopy, *MICROTUBULES

Abstract

Atomic force microscopy (AFM) in situ has been used to observe the cold disassembly dynamics of microtubules at a previously unrealised spatial resolution. Microtubules either electrostatically or covalently bound to aminosilane surfaces disassembled at room temperature under buffer solutions with no free tubulin present. This process was followed by taking sequential tapping-mode AFM images and measuring the change in the microtubule end position as a function of time, with an spatial accuracy down to ±20 nm and a temporal accuracy of ±1 s. As well as giving average disassembly rates on the order of 1–10 tubulin monomers per second, large fluctuations in the disassembly rate were revealed, indicating that the process is far from smooth and linear under these experimental conditions. The surface bound rates measured here are comparable to the rates for GMPCPP-tubulin microtubules free in solution, suggesting that inhibition of tubulin curvature through steric hindrance controls the average, relatively low disassembly rate. The large fluctuations in this rate are thought to be due to multiple pathways in the kinetics of disassembly with differing rate constants and/or stalling due to defects in the microtubule lattice. Microtubules that were covalently bound to the surface left behind the protofilaments covalently cross-linked to the aminosilane via glutaraldehyde during the disassembly process. Further work is needed to quantitatively assess the effects of surface binding on protofibril disassembly rates, reveal any differences in disassembly rates between the plus and minus ends and to enable assembly as well as disassembly to be imaged in the microscope fluid cell in real-time. [Copyright &y& Elsevier]

Published

2003

4. Effect of heparin and heparan sulphate on open promoter complex formation for a simple tandem gene model using ex situ atomic force microscopy.

Author

Chammas, Oliver, Bonass, William A., and Thomson, Neil H.

Subjects

*HEPARIN, *RNA polymerases, *ESCHERICHIA coli, *DNA, *POLYSACCHARIDES

Abstract

The influence of heparin and heparan sulphate (HepS) on the appearance and analysis of open promoter complex (RP o ) formation by E. coli RNA polymerase (RNAP) holoenzyme (σ 70 RNAP) on linear DNA using ex situ imaging by atomic force microscopy (AFM) has been investigated. Introducing heparin or HepS into the reaction mix significantly reduces non-specific interactions of the σ 70 RNAP and RNAP after RP o formation allowing for better interpretation of complexes shown within AFM images, particularly on DNA templates containing more than one promoter. Previous expectation was that negatively charged polysaccharides, often used as competitive inhibitors of σRNAP binding and RP o formation, would also inhibit binding of the DNA template to the mica support surface and thereby lower the imaging yield of active RNAP-DNA complexes. We found that the reverse of this was true, and that the yield of RP o formation detected by AFM, for a simple tandem gene model containing two λ PR promoters, increased. Moreover and unexpectedly, HepS was more efficient than heparin, with both of them having a dispersive effect on the sample, minimising unwanted RNAP-RNAP interactions as well as non-specific interactions between the RNAP and DNA template. The success of this method relied on the observation that E. coli RNAP has the highest affinity for the mica surface of all the molecular components. For our system, the affinity of the three constituent biopolymers to muscovite mica was RNAP > Heparin or HepS > DNA. While we observed that heparin and HepS can inhibit DNA binding to the mica, the presence of E. coli RNAP overcomes this effect allowing a greater yield of RP o s for AFM analysis. This method can be extended to other DNA binding proteins and enzymes, which have an affinity to mica higher than DNA, to improve sample preparation for AFM studies. [ABSTRACT FROM AUTHOR]

Published

2017

5. Single-stranded DNA loops as fiducial markers for exploring DNA–protein interactions in single molecule imaging.

Author

Chammas, Oliver, Billingsley, Daniel J., Bonass, William A., and Thomson, Neil H.

Subjects

*SINGLE-stranded DNA, *FIDUCIAL markers (Imaging systems), *DNA-protein interactions, *SINGLE molecules, *DNA polymerases, *ATOMIC force microscopy

Abstract

Highlights: [•] High efficiency, high yield end labelling of linear DNA using nucleic acid structures. [•] Single-stranded DNA loops as polarity markers for nanoimaging and single molecule methods. [•] PCR based labelling method using ssDNA loop forming primers and exo(−) DNA polymerase. [•] DNA transcription assay using atomic force microscopy. [•] Applications in nanoengineering, genetics, biophysics and synthetic biology. [ABSTRACT FROM AUTHOR]

Published

2013

6. Studying silane mobility on hydrated mica using ambient AFM

Author

Crampton, Neal, Bonass, William A., Kirkham, Jennifer, and Thomson, Neil H.

Subjects

*MICA, *SILANE, *ATOMIC force microscopy, *FERROELECTRICITY

Abstract

Abstract: The mobility of the mono-functional aminosilane, aminopropyldimethylmethoxysilane (APDMMS), on mica has been investigated under ambient relative humidity (RH) using tapping-mode (TM) AFM. Silane layers were formed from vapour phase at various, controlled humidities and then imaged at ambient laboratory conditions (typically 30–40% RH). At low RH of formation (<25%) films without any resolvable sub-structure were formed, and these were stable to the imaging probe. At high RH of formation (>25%), where islands of phase II water are known to exist on mica, a two-phase domain structure was seen as two height levels and the surface area of the higher domains correlated with the RH. Sequential images taken over a 30–60min time period show that these domains are mobile and at intermediate to high RH the domains coalesce under the influence of the scanning AFM tip. The results suggest the APDMMS resides at the air–water interface (rather than interacting with the mica) and that it preferentially interacts with the mobile phase II water as opposed to the phase I water tightly bound to the mica. [Copyright &y& Elsevier]

Published

2006