Materials Basel 2019
This page is provided as a generic orientation of the contents of the practical hands-on sessions. Computer access is described here.
Before downloading any workshop data, please check the directory ~/data since most of the needed material is already available there.
Contents
Dynamo version
The current dynamo version is in this file
Program
The course will start at 10 o'clock, Wednesday morning. Last lecture will finish around 12:30 on Friday. On Friday, after lunch, the computer room will be open till 18:00 and our instructors will stay to assist the participants that chose to stay to work with their own data.
Introduction
Guided presentation:
- tutorial on basic elements: help, data and metadata formats.
- tutorial on the basic concept in Dynamo alignment: the project.
after the coffee break:
Working on your own:
- Basic walkthrough: creating a catalogue, picking particles, launching a project.
- Further work:
Template matching
Tuesday afternoon.
Working on your own:
- We will follow this walkthrough for automated identification of proteosomes on a real tomogram through template matching. (~1 hour)
To get the data, please write in the linux terminal
wget https://wiki.dynamo.biozentrum.unibas.ch/w/doc/data/t20s/t20s.mrc
Geometric modeling
Working on your own:
- For the Wednesday morning session: complete the advanced starters guide (~2 hours)
the data can be found in
~/data/crop.rec
a central file which you can copy is available in
/clab-share/data/crop.rec - In the afternoon, after the research talks, we will focus on the extraction of particles from densely packed spherical geometry (~1 hour)
To get the data, please write in the linux terminal
wget https://wiki.dynamo.biozentrum.unibas.ch/w/doc/data/hiv/v17.rec
Short guided presentation:
- tutorial on membrane modeling with dmslice
- Filament models with dtmslice
- Reusing model workflows ( walkthrough)
- Further work: catalogue
Alignment and reconstruction
These new features in Dynamo are at the testing stage.
Creation of 3D scenes
Thursday afternoon.
Working on your own:
- Walkthrough on the FHV data set (~1hour)
Further support material.
- Walkthrough on depiction and manipulation of triangulations (synthetic data).
Classification
Thursday afternoon.
Short guided presentation:
- PCA Basic concepts.
- Multirefererence Analysis
Basic concepts.
walkthrough (~10 min) - Further work
- Commandline operations with PCA
Additional tools and exercises
- Getting a Structure from Multiple Tomograms:
- - In this exercise on VLPs you will be given 6 tomograms of HIV Capsids and the goal is to reach a structure in which alpha helices start to be visible.
- Usage of GPUs
- Subboxing:
- - motivation slide: extraction of vertices from icosahedral viruses
- - Basic subboxing (tutoriall)
- - advanced subboxing tutorial: combining with MRA tutorial
- - suggested data set: prd1 Capsides (in the folder of isolated particles)
- Manual alignment
- Collection of Small Exercises