Robertson Rae M, Smith Douglas E
Physics Department, University of California, San Diego, 9500 Gilman Dr. La Jolla, California 92093-0379, USA.
Phys Rev Lett. 2007 Sep 21;99(12):126001. doi: 10.1103/PhysRevLett.99.126001.
We use optical tweezers to directly measure the intermolecular forces acting on a single polymer imposed by surrounding entangled polymers (115 kbp DNA, 1 mg/ml). A tubelike confining field was measured in accord with the key assumption of reptation models. A time-dependent harmonic potential opposed transverse displacement, in accord with recent simulation findings. A tube radius of 0.8 microm was determined, close to the predicted value (0.5 microm). Three relaxation modes (approximately 0.4, 5, and 34 s) were measured following transverse displacement, consistent with predicted relaxation mechanisms.
我们使用光镊直接测量周围缠结聚合物(115千碱基对DNA,1毫克/毫升)施加在单个聚合物上的分子间力。根据蛇行模型的关键假设测量了一个管状限制场。与最近的模拟结果一致,一个随时间变化的简谐势反对横向位移。确定了一个0.8微米的管半径,接近预测值(0.5微米)。在横向位移后测量到三种弛豫模式(约0.4、5和34秒),与预测的弛豫机制一致。