Physician Communication Behaviors on Patient Satisfaction in Primary Care Medical Settings in Bangladesh.

Objectives: This study aims at exploring the effects of physicians' communication behaviors on patients' satisfaction in primary care medical consultations in Chattogram, Bangladesh. The study used a quantitative research approach designed with a cross-sectional survey.

Methods: Data were collected using post-consultation and facilitator administered questionnaire from the patients who visited the physician for medical consultation in different hospitals and clinics in Chattogram city.

Using a comprehensive approach to investigate the interaction between Kinesin-5/Eg5 and the microtubule.

Kinesins are microtubule-based motor proteins that play important roles ranging from intracellular transport to cell division. Human Kinesin-5 (Eg5) is essential for mitotic spindle assembly during cell division. By combining molecular dynamics (MD) simulations with other multi-scale computational approaches, we systematically studied the interaction between Eg5 and the microtubule.

Regulation of Biomolecular-Motor-Driven Cargo Transport by Microtubules under Mechanical Stress.

Mechanical stress on cells has profound influences on biological processes, such as cell shape regulation, the formation of tissue patterns, and development. Recently, mechanosensing properties of the microtubule, an important cytoskeletal component, have drawn attention. In this work, we studied cargo transport by dynein, a microtubule-associated motor protein, along microtubules deformed under mechanical stress.

Buckling of microtubules on elastic media via breakable bonds.

Buckling of microtubules observed in cells has been reconstructed on a two-dimensional elastic medium consisting of kinesins grafted over compressible substrates, enabling precise control of experimental conditions and quantitative analysis. However, interpretations of the observations have ambiguities due to inevitable experimental difficulties. In this study, with computer simulations, we investigated importance of the mode of interaction of microtubule with elastic medium in the buckling behavior of microtubule.

Buckling of Microtubules on a 2D Elastic Medium.

We have demonstrated compression stress induced mechanical deformation of microtubules (MTs) on a two-dimensional elastic medium and investigated the role of compression strain, strain rate, and a MT-associated protein in the deformation of MTs. We show that MTs, supported on a two-dimensional substrate by a MT-associated protein kinesin, undergo buckling when they are subjected to compression stress. Compression strain strongly affects the extent of buckling, although compression rate has no substantial effect on the buckling of MTs.