Add to ORKGWang Y. Nanomechanics of DNA-ligand interaction investigated with magnetic tweezers. Bielefeld: Universität Bielefeld; 2017
Magnetic tweezers are a powerful single-molecule technique that allows real-time quantitative invest...
Recent advances in high-throughput single-molecule magnetic tweezers have paved the way for obtainin...
Magnetic tweezers (MTW) enable highly accurate forces to be transduced to molecules to study mechano...
Wang Y, Sischka A, Walhorn V, Tönsing K, Anselmetti D. Nanomechanics of Fluorescent DNA Dyes on DNA ...
Biomechanical forces are involved in the physiological function of molecules. Single molecule magnet...
We report data from single molecule studies on the interaction between single DNA molecules and core...
DNA is a complex biopolymer, support for the genetic information of most living organisms on Earth. ...
Single-molecule force-spectroscopy methods such as magnetic and optical tweezers have emerged as pow...
This work focuses on two single-molecule techniques: Magnetic Tweezers and Tethered Particle Motion ...
In this study, a detailed description of the optical tweezers microscopy technique is presented, as ...
In this study, a detailed description of the optical tweezers microscopy technique is presented, as ...
In this study, a detailed description of the optical tweezers microscopy technique is presented, as ...
In this study, a detailed description of the optical tweezers microscopy technique is presented, as ...
The opening of DNA double strands is extremely relevant to several biological functions, such as rep...
Submicrometer elasticity of double-stranded DNA (dsDNA) governs nanoscale bending of DNA segments an...
Magnetic tweezers are a powerful single-molecule technique that allows real-time quantitative invest...
Recent advances in high-throughput single-molecule magnetic tweezers have paved the way for obtainin...
Magnetic tweezers (MTW) enable highly accurate forces to be transduced to molecules to study mechano...
Wang Y, Sischka A, Walhorn V, Tönsing K, Anselmetti D. Nanomechanics of Fluorescent DNA Dyes on DNA ...
Biomechanical forces are involved in the physiological function of molecules. Single molecule magnet...
We report data from single molecule studies on the interaction between single DNA molecules and core...
DNA is a complex biopolymer, support for the genetic information of most living organisms on Earth. ...
Single-molecule force-spectroscopy methods such as magnetic and optical tweezers have emerged as pow...
This work focuses on two single-molecule techniques: Magnetic Tweezers and Tethered Particle Motion ...
In this study, a detailed description of the optical tweezers microscopy technique is presented, as ...
In this study, a detailed description of the optical tweezers microscopy technique is presented, as ...
In this study, a detailed description of the optical tweezers microscopy technique is presented, as ...
In this study, a detailed description of the optical tweezers microscopy technique is presented, as ...
The opening of DNA double strands is extremely relevant to several biological functions, such as rep...
Submicrometer elasticity of double-stranded DNA (dsDNA) governs nanoscale bending of DNA segments an...
Magnetic tweezers are a powerful single-molecule technique that allows real-time quantitative invest...
Recent advances in high-throughput single-molecule magnetic tweezers have paved the way for obtainin...
Magnetic tweezers (MTW) enable highly accurate forces to be transduced to molecules to study mechano...