We demonstrate a simple method of stretching DNA to its full length, suitable for optical imaging and atomic force microscopy (AFM). Two competing forces on the DNA molecules, which are the electrostatic attraction between positively charged dye molecules (YOYO-1) intercalated into DNA and the negatively charged surface of glass substrate, and the centrifugal force of the rotating substrate, are mainly responsible for the effective stretching and the dispersion of single strands of DNA. The density of stretched DNA molecules could be controlled by the concentration of the dye-stained DNA solution. Stretching of single DNA molecules was confirmed by AFM imaging and the photoluminescence spectra of single DNA molecule stained with YOYO-1 were...
A fluorescence microscopy technique was used to image the dynamics of individual DNA molecules. Lamb...
In this letter, we report on spatially selecting and grafting a DNA-tethered bead to an atomic force...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, February 2011...
Stretching or aligning DNA molecules onto a surface by means of molecular combing techniques is one ...
A combined fluorescence microscope/AFM set-up was constructed, which enabled the real-time manipulat...
Direct visualization of DNA and proteins allows researchers to investigate DNA-protein interactions ...
Single molecule manipulation techniques have contributed to micr か ornanoscopic science and technolo...
Force-extension (F-x) relationships were measured for single molecules of DNA under a variety of buf...
DNA is a complex biopolymer, support for the genetic information of most living organisms on Earth. ...
Single-molecule force spectroscopy often refers to the measurement of the enzymatic activities coupl...
AbstractWe have integrated single molecule fluorescence microscopy imaging into an optical tweezers ...
We have integrated single molecule fluorescence microscopy imaging into an optical tweezers set-up a...
We review recent experiments that have revealed mechanical properties of single DNA molecules using ...
Explore stretching just a single strand of DNA using optical tweezers or fluid flow. Experiment with...
In this dissertation, the degrees of adsorption and stretching of DNA onto surfaces achieved by vari...
A fluorescence microscopy technique was used to image the dynamics of individual DNA molecules. Lamb...
In this letter, we report on spatially selecting and grafting a DNA-tethered bead to an atomic force...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, February 2011...
Stretching or aligning DNA molecules onto a surface by means of molecular combing techniques is one ...
A combined fluorescence microscope/AFM set-up was constructed, which enabled the real-time manipulat...
Direct visualization of DNA and proteins allows researchers to investigate DNA-protein interactions ...
Single molecule manipulation techniques have contributed to micr か ornanoscopic science and technolo...
Force-extension (F-x) relationships were measured for single molecules of DNA under a variety of buf...
DNA is a complex biopolymer, support for the genetic information of most living organisms on Earth. ...
Single-molecule force spectroscopy often refers to the measurement of the enzymatic activities coupl...
AbstractWe have integrated single molecule fluorescence microscopy imaging into an optical tweezers ...
We have integrated single molecule fluorescence microscopy imaging into an optical tweezers set-up a...
We review recent experiments that have revealed mechanical properties of single DNA molecules using ...
Explore stretching just a single strand of DNA using optical tweezers or fluid flow. Experiment with...
In this dissertation, the degrees of adsorption and stretching of DNA onto surfaces achieved by vari...
A fluorescence microscopy technique was used to image the dynamics of individual DNA molecules. Lamb...
In this letter, we report on spatially selecting and grafting a DNA-tethered bead to an atomic force...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, February 2011...