cees dekker - An Overview
cees dekker - An Overview
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I am able to barely picture how I, like a geneticist, would be capable of discover fundamental physics, not to mention contend at the very best. How did you go about it?
2015, discovery that condensin is often a very flexible protein framework; and very first detection of DNA knots utilizing nanopores
Instance (three) of bending configurations in 3D simulations of DNA rods on nanopores. A portion of the membrane is proven in gray, the rim of the pore is highlighted in purple, as well as a 3D rendering of the movement in the DNA rod is exhibited.
Size control of individual carbon nanotubes by nanostructuring with the scanning tunneling microscope
Dynamic ParB–DNA interactions initiate and manage a partition condensate for bacterial chromosome segregation
Imagine if, as an alternative to utilizing regular best-down silicon electronics, transistors could be designed from the bottom up working with single natural and organic molecules because the switching features? This idea, which turned the basis of currently’s area of molecular electronics, initially emerged while in the nineteen seventies.
It was throughout this period that Dekker completed investigation on magnetic spin devices and on sounds in superconductors and cees dekker semiconductors.
Tests pseudotopological and nontopological designs for SMC-pushed DNA loop extrusion versus roadblock-traversal experiments
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2008, first observation of protein-coated DNA translocation by way of nanopores; solved the origin on the electrophoretic power on DNA in nanopores; found out an important velocity raise of microtubules in electric powered fields; learned an anomalous electro-hydrodynamic orientation of microtubules; and solved the origin of sound in carbon nanotubes in liquid
Supercoiling-dependent DNA binding: quantitative modeling and applications to bulk and solitary-molecule experiments