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October, 2017 – IF – USP

Program: First Week

  Monday,

Oct 16th

Tuesday,

Oct 17th

Wednesday, Oct 18th Thrusday,

Oct 19th

Friday,

Oct 20th

7h30-8h15 Registration        
8h15 Opening        
8h30 L1. Microscopy and Fluorescence Methodologies in Membrane Biophysics

Manuel Prieto

L5. Introduction to Cryo-Electron Microscopy, with key application examples

Jose Maria Carazo

L9 Biological and biomedical applications of atomic force microscopy

Nuno Santos

 

L11.  Introduction to Biomolecular NMR

 

Christina Redfield

L12.Basic Computational approaches in biomolecular simulations: protein folding and protein assembly   Yaakov Levy
10h00 Coffee Break Coffee Break Coffee Break Coffee Break Coffee Break
10h30 L2. Membrane SAXS: basic principles and applications

Rosangela Itri

L6. SAXS from proteins and protein-membrane interaction

Leandro Barbosa

L10. Proteins in membranes: lipid annular region, aggregation and topology by advanced fluorescence methodologies

Manuel Prieto

 

 

FAPESP time

 

 

 

Poster Session

 

12h00 Lunch with teachers Lunch with teachers Lunch with teachers Lunch with teachers Lunch w/ teachers
14h00 L3. Electron Spin Resonance: Theory and Biophysical Applications

Antonio Jose da Costa Filho

L7. Computing cryo-EM maps: The image processing workflow to go from 2D to 3D

Jose M. Carazo

 

Hands-on

I, II, III, IV  and V

 

Hands-on

I, II, III, IV  and V

 

Hands-on

II, III, IV, V

15h30 Coffee Break Coffee Break      
15h45 L4.  AFM-based force spectroscopy

Nuno Santos

 

L8. Introduction to Basic Principles of NMR

Roberto Salinas

 

Hands-on

I, II, III, IV  and V

 

Hands-on

I, II, III, IV  and V

 

Hands-on

II, III, IV, V

17h15 – 18h15 * Students Case Studies

L1-L4

Students Case Studies

L5-L8

Students Case Studies

L9-L10

Students Case Studies

L11

Students Case Studies

L12


Program: Second Week

  Monday,

Oct 23rd

 

Tuesday,

Oct 24th

Wednesday, Oct 25th Thrusday,

Oct 26th

 

Friday,

Oct 27th

 

8h15          
8h30 L13. Molecular principles for optimizing protein-DNA interactions

 

Yaakov Levy

L15 Introduction to Molecular Dynamic Simulations of Membranes (Part I)

Kaline Coutinho

 

L17 CD spectroscopy: membrane proteins and drug interactions

 

Bonnie Wallace

Travel to Campinas (CNPEM) Talk1. Synergy between NMR, cryo-EM and large- scale MD simulations – an all atom model of a native HIV capside

Angela M Gronenborn

10h00 Coffee Break Coffee Break Coffee Break Coffee Break Coffee Break
10h30 L14. Introduction to Assignment of Protein NMR Spectra

 

Christina Redfield

L16. CD spectroscopy: basic principles and applications to proteins (including peptides and IDPs)

Robert Janes

L18 The effect of post-translational modifications on protein biophysics

 

Yaakov Levi

 

Visit CNPEM – LNLS – LNBio-LNNano Talk2. FRET images applied to living cells

 

Manuel Prieto

12h00 Lunch with teachers Lunch with teachers Lunch with teachers Lunch at CNPEM Lunch with teachers
14h00  

Hands-on

III, IV, V and VI

 

Hands-on

III, IV, V and VI

L19 Introduction to Molecular Dynamic Simulations of Membranes (Part II)

Kaline Coutinho

 

 

Visit CNPEM – LNLS – LNBio-LNNano

Talk3 . The effect of post-translational modifications on protein biophysics

Yaakov Levi

 

15h30     Coffee Break    
15h45 Hands-on

III, IV, V and VI

Hands-on

III, IV, V and VI

Poster Session Visit CNPEM – LNLS – LNBio-LNNano Talk4 . Exploiting Multiple Spectroscopies to quantify  biological signaling in cells

Anthony Watts

17h15 – 18h15 * Students Case Studies

L13-L14

Students Case Studies

L15-L16

Poster Session Travel back to SP Closing Ceremony : Awards

*Case Studies: some students pre-selected during the registration process (online registration) will present and discuss their results based on the lecturers (themes) given at each day.

*Lunch with teachers:  students will be divided in small groups and have lunch with the teachers to exchange experiences and ideas. 

Hands-On: the students will be split into 5 groups such that each group will attend a specific hands-on per afternoon (from I to V). Further, each student must choose, at least, 3 hands-on.

Hands-on I: 50 students in the auditorium: Hands-on in cryo Electron Microscopy image processing – Jose Maria Caraso (Wednesday October 18th and Thursday October 19th)

Electron Microscopy under cryogenic conditions (“cryo EM”) is changing the way we study the three dimensional structure of biological macromolecules, allowing to reach quasi-atomic resolution for flexible samples without the need to grow 3D crystals.  The current “resolution revolution” has been made possible thanks to key technological developments in EM instrumentation and on new image processing breakthroughs. Focusing on the latter, at the Instruct Image Processing Center (I2PC) in Madrid (ALBA) we have developed a workflow oriented integrative image processing platform, that we call “Scipion”, that makes very intuitive all image processing steps. During this Demo we will remotely access the I2PC and run Scipion via Web, analyzing the most typical workflow for the analysis of biological macromolecules and some of its main steps, depending on the time allocated to this activity. Attendees will have the opportunity to log-in into a number of Demo accounts running Scipion from the attendee’s own computer through a web browser.

Hands-on II: 10 students in the Crystallography lab (IFUSP) and class room: Hands-on Characterization of colloidal systems based on laser Scattering techniques: DLS and NTA – Dra Lígia Nunes de Morais Ribeiro (IB-Unicamp)

Colloidal systems are heterogeneous and composed of a dispersed particulate phase in a non-miscible solution. They are widely applied in healthy, food and environmental fields, but they can be difficult to characterize due to their intrinsic dynamism. The light scattering approaches are the most employed techniques for evaluating the nanoparticles size distributions in colloids based on their Brownian motion. Dynamic light scattering (DLS) is the most used method for the measure of size distribution and Zeta potential by the intensity correlation function of the scattered light by the nanoparticles. Nanotracking analysis (NTA) is an innovator real-time technique that is changing the way to characterize nanoparticles in suspension. It comprises a laser source plus microscope (20x), charge-coupled device (CCD) camera and analytical software, providing individual measure of the dispersed nanoparticles. It also allows for the determination of the number of particles in suspension (concentration) by the “particle-by-particle” approach. Both techniques work in the 1-1000 nm range, at very diluted samples. In this hands-on, monodisperse and polydisperse samples will be measured, and the attendees will be trained to operate, understand and discuss the results obtained from both techniques, focusing in the suitable data quality parameters. Such information helps to understand the molecular interaction between their components: drug-carrier, RNA-exosome, and many others application, such as treatment monitoring and diagnosis.

Hands-on III: 20 students in a class room: EPR data analysis  – Antonio Jose da Costa Filho (FFCLRP-USP)

EPR results from lipid model membranes containing spin-labeled lipids at different temperatures will be investigated. The molecular dynamics and ordering of the lipids will be analyzed as a function of the depth within the bilayer. The spectral analyses will be based on semi-empirical approaches as well as simulations using specific softwares.

Hands-on IV: 10 students in a Crystallography lab (IFUSP) and class room: SAXS of proteins and membranes: measurement and analysis  – Rosangela Itri and Leandro Barbosa (IFUSP)

Samples of lipid model membranes in the presence of proteins will be measured at SAXS set-up (NanoStar) (IFUSP). The basic structural parameters as radius of gyration, shape and maximum dimension of the scattering objects will be retrieved from the SAXS curves as well as modelling using specific softwares will be done.

Hands-on V: 10 students in the NMR facility (IQUSP) and class room: NMR: measurement and data analysis  – Roberto Salinas (IQUSP) and Eneida de Paula (IB-Unicamp)

Visit to the NMR facility; acquisition of 1D and 2D NMR spectra of proteins in water and small molecules; a short A short tutorial on the analysis of NMR titration to study protein-ligand interaction will be offered with the possibility for students to carry out data analysis using their own laptop computers. In this case students will be requested to install the specific NMR softwares in their laptops prior to the realization of the course. There will no time available for software installation.

Hands-on VI: 20 students in a classroom: CD spectroscopy on Data Processing and Methods of Analysis – Bonnie Wallace (Birkbeck College), Robert W James  (Un. London) and Jose Luiz Lopes (IFUSP)

In this practice, students will remotely access the Protein CD Data Base (PCDDB) developed by profs. Bonnie Wallace and Robert W James and will perform a complete analysis of the secondary structure of an “unknown” folded protein and thermally unfolded.

Poster Session: there will be two posters sections dedicated to the students presentation.

Visit to CNPEM: the students will have the opportunity to know the facilities of the Brazilian National Lab: LNLS (in special the SAXS and IR beam lines), LNBIO (NMR facility) and LNNano (Cryo-TEM and negative stain microscopy)

Fuente: fap.if.usp.br