Since the discovery of the right-handed helical structure of DNA, 61 years have passed. The DNA molecule, which encodes genetic information, is also found twisted into coils. This extra twist of... Show moreSince the discovery of the right-handed helical structure of DNA, 61 years have passed. The DNA molecule, which encodes genetic information, is also found twisted into coils. This extra twist of the helical structure, called supercoiling, plays important roles in both DNA compaction and gene regulation. The DNA in eukaryotic cells is packaged into chromatin. Using single-molecule force spectroscopy, I resolved force/torque induced structural changes of DNA and chromatin fibers. I showed that the structural changes of chromatin fibers can be described by four conformations. I showed for the first time the folding and unfolding of a chromatin fiber under torsion. Th e anisotropic response of chromatin fibers to supercoiling reflects its leftŸ-handed chirality. These findings give a detailed structural insight of a supercoiled chromatin fiber, yielding a better understanding of the response of chromatin during transcription Show less
The influence of temperature on various elastic properties of DNA is analyzed close to elastic instabilities. The buckling transition under compression is interpreted as decreasing. Under torsion a... Show moreThe influence of temperature on various elastic properties of DNA is analyzed close to elastic instabilities. The buckling transition under compression is interpreted as decreasing. Under torsion a first order phase transition is described ending in an important multi-plectoneme phase that changes to a line of critical points in the infinite chain limit. Show less