Membrane protein session Erice 16-6-06. Introduction Werner Kühlbrandt5 min Aquaporin 0Tom Walz30+5 min Na + /H + antiporterCarola Hunte30+5 min EM and.

Slides:

Advertisements

Similar presentations

Protein Purification and Analysis Numbers of genes: Humans~40,000 genes Yeast~6000 genes Bacteria~3000 genes Solubility of proteins important for purification:

Advertisements

Introduction to protein x-ray crystallography. Electromagnetic waves E- electromagnetic field strength A- amplitude  - angular velocity - frequency.

Experimental Techniques in Protein Structure Determination Homayoun Valafar Department of Computer Science and Engineering, USC.

Observing the Microbial Cell

Determination of Protein Structure. Methods for Determining Structures X-ray crystallography – uses an X-ray diffraction pattern and electron density.

X-Ray Crystallography

Two cases of chemometrics application in protein crystallography European Molecular Biology Laboratory (EMBL), Hamburg, Germany Andrey Bogomolov.

Computing Protein Structures from Electron Density Maps: The Missing Loop Problem I. Lotan, H. van den Bedem, A. Beacon and J.C. Latombe.

1 Protein Structure, Structure Classification and Prediction Bioinformatics X3 January 2005 P. Johansson, D. Madsen Dept.of Cell & Molecular Biology, Uppsala.

Lecture 3 – 4. October 2010 Molecular force field 1.

Structure Prediction. Tertiary protein structure: protein folding Three main approaches: [1] experimental determination (X-ray crystallography, NMR) [2]

Protein structure determination. Tertiary protein structure: protein folding Three main approaches: [1] experimental determination (X-ray crystallography,

Structure Prediction. Tertiary protein structure: protein folding Three main approaches: [1] experimental determination (X-ray crystallography, NMR) [2]

Hanging Drop Sitting Drop Microdialysis Crystallization Screening.

Bridging the solution divide: comprehensive structural analyses of dynamic RNA, DNA, and protein assemblies by small-angle X-ray scattering By Rambo and.

Protein structure determination & prediction. Tertiary protein structure: protein folding Three main approaches: [1] experimental determination (X-ray.

Crystallography: An introduction Harma Brondijk Crystal and Structural chemistry, Utrecht University.

Membrane Proteins: The Next Structural Challenge For the average eukaryotic genome, % of all proteins are membrane bound and serving essential functions.

The Use of Empirically Derived Detergent Phase Boundaries to Crystallize Membrane Proteins M. Koszelak-Rosenblum, A. Krol, N. Mozumdar, K. Wunsch, A. Ferin,

Bioinformatics for biomedicine Protein domains and 3D structure Lecture 4, Per Kraulis

X-ray and NMR Topic 7 Chapter 4 & 5, Du and Bourne “Structural Bioinformatics”

23 May June May 2002 From genes to drugs via crystallography 19 May 1996 Experimental and computational approaches to structure based.

Fig. 1.1 TRP channel subfamilies and the transmembrane topology and domain organization of their subunits Transient Receptor Potential Channels, Md. Shahidul.

Practical session 2b Introduction to 3D Modelling and threading 9:30am-10:00am 3D modeling and threading 10:00am-10:30am Analysis of mutations in MYH6.

Transmembrane proteins in the Protein Data Bank: identification and classification Gabor, E. Tusnady, Zsuzanna Dosztanyi and Istvan Simon Bioinformatics,

 Four levels of protein structure  Linear  Sub-Structure  3D Structure  Complex Structure.

Protein Characterization BIT 230. Methods Many of these methods were covered through this course Understand purpose!

EBI is an Outstation of the European Molecular Biology Laboratory. A web service for the analysis of macromolecular interactions and complexes PDBe Protein.

X-Ray Crystallography Susan Ahrens February 3, 2004.

Single-crystal X-ray Crystallography ● The most common experimental means of obtaining a detailed picture of a large molecule like a protein. ● Allows.

Structure to Elucidate Mechanism

EMBL-EBI MSDpisa a web service for studying Protein Interfaces, Surfaces and Assemblies Eugene Krissinel

EBI is an Outstation of the European Molecular Biology Laboratory. A web service for the analysis of macromolecular interactions and complexes PDBe Protein.

Structural Biomedicine

Structural proteomics

STRUCTURAL BIOLOGY Martina Mijušković ETH Zürich, Switzerland.

X RAY CRYSTALLOGRAPHY. WHY X-RAY? IN ORDER TO BE OBSERVED THE DIMENTIONS OF AN OBJECT MUST BE HALF OF THE LIGHT WAVELENGHT USED TO OBSERVE IT.

Structure of a Membrane Proteins in Situ F. Jamilidinan, P. Schwander,D. K. Saldin.

Biochemistry - as science; biomolecules; metabolic ways. Structure of proteins, methods of its determination.

Overexpression and stability of helical membrane proteins

Protein Modeling Protein Structure Prediction. 3D Protein Structure ALA CαCα LEU CαCαCαCαCαCαCαCα PRO VALVAL ARG …… ??? backbone sidechain.

Biological Membranes and Transport Functions of membranes Define cell boundaries, compartments Maintain electric and chemical potentials Self-sealing (break.

Introduction to Protein Structure Prediction BMI/CS 576 Colin Dewey Fall 2008.

Enzyme mechanisms B. X-ray methods 1 Small angle X-ray scattering (SAX) Kinetic crystallography – slow reactions Kinetic crystallography – Laue method.

ELECTRON CRYSTALLOGRAPHY:

Structural proteomics Handouts. Proteomics section from book already assigned.

Membrane Protein Crystallization From Cubic Lipid Matrices

Atomic structure model

X-ray crystallography – an overview (based on Bernie Brown’s talk, Dept. of Chemistry, WFU) Protein is crystallized (sometimes low-gravity atmosphere is.

X-ray detection xray/facilities.html.

EMBL-EBI Representative sets and Clustering.. EMBL-EBI Representative sets A subset of data that provides a statistically valid sample set for the complete.

Protein Structure and Bioinformatics. Chapter 2 What is protein structure? What are proteins made of? What forces determines protein structure? What is.

Structural classification of Proteins SCOP Classification: consists of a database Family Evolutionarily related with a significant sequence identity Superfamily.

Dynamically Polarized Solid Target for Neutron Scattering at the SNS PST 07 J.K. Zhao Neutron Scattering Sciences Division, Spallation Neutron Source Oak.

Lecture 10 CS566 Fall Structural Bioinformatics Motivation Concepts Structure Solving Structure Comparison Structure Prediction Modeling Structural.

Lecture 53: X-ray crystallography. Electrons deflect x-rays We try to recreate electron density from the x-ray diffraction pattern Each point in space.

Cont. Proteomics Structural Genomics Describes the experimental and analytical techniques that are used to determine the structure of proteins and RNA.

Size exclusion Chromatography.

Page 1 Protein Crystallization and Structure Determination ---by Creative BiostructureCreative Biostructure.

Free Powerpoint Templates Page 1 Free Powerpoint Templates Protein Crystallization -by Creative Biostructure.

BCHM - Structural Biology

PDBe Protein Interfaces, Surfaces and Assemblies

Protein structure Our understanding of life at the molecular level is highly dependent on the ability to map the molecular details of individual proteins.

Protein 3d structure Our understanding of life at the molecular level is highly dependent on the ability to map the molecular details of individual proteins.

Structural biology Our understanding of life at the molecular level is highly dependent on the ability to map the molecular details of individual proteins.

Structure determination Our understanding of life at the molecular level is highly dependent on the ability to map the molecular details of individual.

Protein structure analysis Our understanding of life at the molecular level is highly dependent on the ability to map the molecular details of individual.

Homology 3D modeling and effect of mutations

Nobel Laureates of X Ray Crystallography

Presentation transcript:

Membrane protein session Erice

Introduction Werner Kühlbrandt5 min Aquaporin 0Tom Walz30+5 min Na + /H + antiporterCarola Hunte30+5 min EM and x-rayWerner Kühlbrandt30+5 min Coffee break30 min Photosystem II Jan Kern30+5 min Solid-state NMRHartmut Oschkinat30+5 min Programme

in pdb deposits

all PDB entries , membrane protein entries

What makes it so hard ? Few membrane proteins are naturally abundant Most are difficult to express Difficult to purify Difficult to crystallize Difficult to solve

Usual problems Insufficient protein available Protein unstable in detergent solution Protein precipitates upon concentration Detergent interferes with crystal order Bound lipids may or may not be required Crystals are often small, poorly ordered and anisotropic Crystals often cannot be frozen

Different types of membrane protein crystals Type 1 crystalsType 2 crystals “Type 4” crystals “Type 3” crystals

Use of membrane protein crystals 3D crystals for X-ray crystallography –Protein in detergent solution –Initial crystals often poorly ordered –Antibody fragments as spacers –Lipidic cubic phases ? 2D crystals for electron microscopy –Protein in lipid bilayer –Physiological conditions –Good probability –Experimental phases Small crystals for solid-state NMR

Techniques for structure determination X-ray crystallography (Carola Hunte, Jan Kern) –atomic coordinates –single state (unless you are lucky) Electron crystallography –2D crystals: 3 Å - 8 Å resolution with ab initio phases (1.8 Å by electron diffraction: Tom Walz) –protein in membrane –different conformational states (Werner Kühlbrandt) Single-particle EM –6 Å - 20 Å resolution –protein in solution or in membrane NMR –Solution: small  -barrels –Solid-state (Hartmut Oschkinat)