2015/7/131 Microsystems for UV-Visible and X-Ray Analysis of Protein Crystals Advisor : Cheng-Hsien Liu Report : Ming-Ju Lee Date : 2007/06/06 L.S.L. Cheung 1, R. Quick 1, S.K. Singh 2, A. Weichsel 2, W.R. Montfort 2 and Y. Zohar 1 1 Dept. of Aerospace and Mechanical Engineering, 2 Dept. of Biochemistry and Biophysics University of Arizona, Tucson, AZ, USA, p.569~572, MEMS2007
2015/7/132 Outline Introduction Transmittance test Device design and fabrication UV-visible and X-ray analysis Conclusions
2015/7/133 Introduction Microfluidic devices have been shown tremendous advantage of miniaturization for performing analysis tasks Understanding protein crystal structure is paramount in disease therapy and new drug discovery. To this end, UV- visible spectroscopy and X-ray crystallography are the main research methods However, the powerful measurement technique of X-ray diffraction for elemental analysis and structure determination in fluidic microsystems
2015/7/134 Transmittance Test T r : transmittance factor I o : incident intensity I : emerging intensity μ: material absorption coefficient x : distance inside matter UV-Visible light transmittance factorX-ray transmittance factor
2015/7/135 Conceptual Design PDMS-based microsystem for UV-visible and X-ray analysis of protein crystals has been design to meet: Minimum total optical path, less than 100 μ m Integration of micro- channels for continuous flow of buffer solutions around the crystal Sufficient device rigidity for stable operation
2015/7/136 Device Fabrication and Packaging Schematic cross-sections of the major steps in fabricating the protein-crystal microsystem
2015/7/137 UV-Visible Light Spectra UV-visible spectra, provide important information on the or serve as an auxiliary support for UV-visible spectra, provide important information on the protein catalytic cycle or serve as an auxiliary support for crystal-structure modelling Energy absorbance
2015/7/138 X-Ray Diffraction Analysis It is the most popular experimental method to determine It is the most popular experimental method to determine protein structure A successful protein-crystal microsystem should allow of X-ray radiation with A successful protein-crystal microsystem should allow high transmittance of X-ray radiation with minimum energy absorbance by the substrate (a)with PDMS, (b) w/o PDMS (c) with glass, and (d) w/o glass
2015/7/139 Conclusions With a thin PDMS, about 100μ With a thin PDMS, about 100μm in thickness, both the UV- visible spectrum and the intensity of the X-ray diffraction pattern are almost identical to the protein crystal alone Microsystems integrated with microchannels allowing continuous exchanges of buffer solution around the protein crystals; this would greatly enhance the potential to induce, trap and characterize functional states in proteins
2015/7/1310 Thanks for your listening !!