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Handbook of Biological Physics
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The article was published on 1996-01-01 and is currently open access. It has received 1088 citations till now.read more
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Translocation mechanism of long sugar chains across the maltoporin membrane channel.
TL;DR: The minimum-energy path of maltohexaose translocation is obtained by the conjugate peak refinement method, which reveals that the protein is passive while the sugar glides screw-like along the aromatic lane, and the slow rate of the register shift is due to high collisional friction.
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Monochromatic ultra-slow (~0.1 Hz) oscillations in the human electroencephalogram and their relation to hemodynamics.
Vadim V. Nikulin,Tommaso Fedele,Jan Mehnert,Jan Mehnert,Jan Mehnert,Axel Lipp,Cornelia Noack,Jens Steinbrink,Gabriel Curio +8 more
TL;DR: The biological origin of Monochromatic Ultra-Slow Oscillations is explored by simultaneous recordings of EEG, Near-Infrared Spectroscopy, NIRS, arterial blood pressure, respiration and Laser Doppler flowmetry, suggesting that these oscillations might be of a rather extraneuronal origin reflecting cerebral vasomotion.
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Molecular study of the sodium-iodide symporter (NIS): A new field in thyroidology
TL;DR: The research reviewed in this article clearly has far-reaching implications in the areas of structure/function of transport proteins, thyroid pathophysiology, hormone action mechanisms, cell differentiation and cancer.
Journal ArticleDOI
Time-resolved resonance Raman analysis of chromophore structural changes in the formation and decay of rhodopsin's BSI intermediate.
TL;DR: Comparing and discussing the room temperature resonance Raman vibrational structure of all the key intermediates in visual excitation is compared and discussed for the first time.
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Functional characterisation of novel analgesic product based on self-regulating drug carriers.
TL;DR: In vivo ketoprofen transport by ultradeformable carriers through non-occluded skin into living pigs' subcutaneous muscles is 5-14x better than for conventional gels and locally targeted drug transport by the self-regulating, ultrade formable vesicles is clearly non-diffusive and quite efficient.