6/19/2023 0 Comments Dynamic light scattering pdfdoi: 10.1016/j.jsb.2015.04.005ĭeo S et al (2014) Activation of 2′ 5′-oligoadenylate synthetase by stem loops at the 5′-end of the West Nile virus genome. Annalen der Physik 351:809–823 doi: 10.1002/andp.19153510606ĭeo S et al (2015) Characterization of the termini of the West Nile virus genome and their interactions with the small isoform of the 2′ 5′-oligoadenylate synthetase family. Les Presses Universitaires de FranceĬummins HZ, Knable N, Yeh Y (1964) Observation of diffusion broadening of Rayleigh scattered light. Royal Society of Chemistry, Cambridge, pp 3–22Ĭabannes J, Rocard Y (1929) La diffusion moléculaire de la lumière, Vol 16 of Recueil des conférences-rapports de documentation sur la physique. In: Harding SE, Settele DB, Bloomfield VA (eds) Laser light scattering in biochemistry. doi: 10.1007/0-0_1īurchard W (1992) Static and dynamic light scattering approaches to structure determination of biopolymers. Annales de Physique (Paris) 17:88–122īurchard W (1983) Static and dynamic light scattering from branched polymers and biopolymers. Cr Hebd Acad Sci 158:1331–1334īrillouin L (1922) Diffusion de la lumière et des rayons X par un corps transparent homogène, influence de l’agitation thermique. doi: 10.1242/jcs.01127īrillouin L (1914) Light diffusion by a homogeneous transparent body. Methods Enzymol 48:415–494īreitkreutz D et al (2004) Inhibition of basement membrane formation by a nidogen-binding laminin gamma1-chain fragment in human skin-organotypic cocultures. John Wiley & Sons, Inc, New York, USAīloomfield VA (1981) Quasi-elastic light scattering applications in biochemistry and biology. BMC Biophys 8:11 doi: 10.1186/s1362-7īerne BJ, Pecora R (1976) Dynamic light scattering: with applications to chemistry, biology, and physics. Prediction of solution properties and dynamics of RNAs by means of Brownian dynamics simulation of coarse-grained models: Ribosomal 5S RNA and phenylalanine transfer RNA. doi: 10.1371/journal.pone.0144510īarnett CE (1942) Some applications of wave-length turbidimetry in the infrared. doi: 10.1021/ma102697qĪriyo EO et al (2015) Biophysical Characterization of G-Quadruplex Recognition in the PITX1 mRNA by the Specificity Domain of the Helicase RHAU. This intrinsic property, that is the ability to self-aggregate, may be involved in some pathological settings that have been revealed in clinical practice.Amoros D, Ortega A, de la Torre JG (2011) Hydrodynamic properties of wormlike macromolecules: Monte Carlo simulation and global analysis of experimental data. In fact, this process evolves initially through the formation of fibrils that subsequently interact to form supramolecular structures whose dimensions would be capable of trapping platelets even in the absence of any degree of shear stress or interaction with external surfaces. In this research paper, we followed the time course of VWF self-association in solution induced by ristocetin binding by light scattering and at the same time we collected atomic force microscopy images to clarify the nature of the assembly that is formed. Ristocetin also promotes the interaction of VWF with GpIb and is able to induce platelet aggregation, and thus is largely used to mimic this effect in vitro. High shear stress triggers conformational changes responsible for both binding to the platelet receptor glycoprotein GpIb and its self-association, thus supporting the formation of platelet plug under flow. Von Willebrand factor (VWF) is a large multimeric adhesive glycoprotein, with complex roles in thrombosis and hemostasis, present in circulating blood and in secretory granules of endothelial cells and platelets.
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