Print Email Facebook Twitter Colloidal Allostery Title Colloidal Allostery: Exploring the pathway to innovative separation technologies Author Saraswat, Yug (TU Delft Applied Sciences) Contributor Eral, H.B. (mentor) Degree granting institution Delft University of Technology Programme Chemical Engineering Date 2018-05-18 Abstract Colloidal allostery is a regulatory mechanism where specific metabolites regulate the protein activity by binding to them and changing their energy landscape. The first steps to model this system on a colloidal scale were made by studying the depletion interaction between the hydrogel posts and the rigid polystyrene particles. Using soft lithography, hydrogel posts of different rigiditywere synthesized inside the microfluidic channel. Polystyrene particles and depletant (dextran) were added and the interaction between the posts and the particles was studied using optical microscopy and particle tracking.However, major issues such as poor statistics, incomplete cross-linking of the hydrogel posts and irreversible sticking of polystyrene particles to the hydrogel hindered with the experimental results. Therefore, in this project, efforts are made to improve the experimental implementation of the model.At the end of the project, it was observed that while optical tweezers offer a more controlled and refined way of measuring the interactive forces than the particle tracking using video microscopy, the limitations of the equipment in providing the location of the particle normal to the base of the channel hinder the estimation of the desired parameter. Furthermore, despite curing the hydrogel posts for a long period of time under the UV light, the rigid polystyrene particles still stick irreversibly to the post.It is therefore recommended that the optical tweezer apparatus must be upgraded to provide the researcher with the position of particle normal to channel bottom. This can allow better estimation of the effect of the wall on the motion of the particle. The photo-crosslinking characteristics of thehydrogel must be studied to determine the effect of the UV light on the gelation process.The ultimate vision of the project is to develop innovative separation technologies based on the fundamental understanding of the interplay of the depletion forces and elastic energy of deformation.of the hydrogel posts. Subject AllosteryMicrofluidicslHydrogel To reference this document use: http://resolver.tudelft.nl/uuid:439fc285-ac90-4d38-a7b7-280756cf3ad9 Part of collection Student theses Document type master thesis Rights © 2018 Yug Saraswat Files PDF Yug_Saraswat_MSc_Thesis_C ... ostery.pdf 5.62 MB Close viewer /islandora/object/uuid:439fc285-ac90-4d38-a7b7-280756cf3ad9/datastream/OBJ/view