Difference between revisions of "EMBO workshop 2021"

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== Dynamic of the course ==
 
== Dynamic of the course ==
 
 
The course is divided on different modules, described in the time schedule below. Each module is structured in three stages:
 
The course is divided on different modules, described in the time schedule below. Each module is structured in three stages:
  
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; Common discussion
 
; Common discussion
 
: on the last 5 minutes of the module, we come back to the general breakout room for discussion of problems found.
 
: on the last 5 minutes of the module, we come back to the general breakout room for discussion of problems found.
 +
 +
=== Data location ===
 +
Each module has one or several walkthroughs. The data of the walkthroughs is sometimes synthetic and created on the fly, and sometimes a data set is necessary. In such cases, the text of walkthrough will point to an on-line location where the data can be downloaded. <br />
 +
During this course, the data will be also available in the filesystem, you will not need to download it.
  
 
== Time schedule ==
 
== Time schedule ==
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=== Manual alignment of tilt series ===
 
=== Manual alignment of tilt series ===
 
We will click manually on the gold beads of our test tilt series
 
We will click manually on the gold beads of our test tilt series
 +
[[Walkthrough on manual marker clicking  ]]
  
 
=== Automated alignment of tilt series through the GUI ===
 
=== Automated alignment of tilt series through the GUI ===
 +
[[Walkthrough on GUI based tilt series alignment ]]
  
 
=== Automated alignment of tilt series through the command line ===
 
=== Automated alignment of tilt series through the command line ===
 +
[[Walkthrough on command line based tilt series alignment ]]
  
 
== Models ==  
 
== Models ==  
 
=== Catalogues ===
 
=== Catalogues ===
 
=== Helical models ===
 
=== Helical models ===
 +
[http://{{SERVERNAME}}/w/doc/misc/modelFilament.pdf tutorial ]
 
=== Vesicle and surface models ===
 
=== Vesicle and surface models ===
 +
[http://{{SERVERNAME}}/w/doc/misc/modelMembrane.pdf tutorial on] membrane modeling with <tt> dmslice </tt>
 
=== Reusing models ===
 
=== Reusing models ===
 +
Reusing model workflows ([[Walkthrough model worfklow reuse| walkthrough]])
 
== Template matching ==
 
== Template matching ==
 +
[[Walkthrough for template matching | walkthrough]] for automated identification of proteosomes on a real tomogram through template matching. (~1 hour) <br />
 +
The data can be found in
 +
<tt>/g/cryocourse/data/dynamo/t20s.mrc</tt>
  
 
== Subtomogram averaging ==  
 
== Subtomogram averaging ==  
 
=== Introduction ===
 
=== Introduction ===
 
=== Advanced starters guide ===
 
=== Advanced starters guide ===
 +
 
=== Seed oversampling ===
 
=== Seed oversampling ===
 +
 +
[[Walkthrough for lattices on vesicles| from densely packed spherical geometry ]]  (~1 hour) <br />
 +
The data is available at
 +
<tt>/g/cryocourse/data/dynamo/v17.rec</tt>
 +
 
=== High resolution pipeline ===
 
=== High resolution pipeline ===
 
Not a tutorial per se: this is a presentation on a set of tools to interconnect Dynamo, M and other software.
 
Not a tutorial per se: this is a presentation on a set of tools to interconnect Dynamo, M and other software.

Revision as of 13:09, 24 June 2021

These tutorials takes place virtually on the 11th and 13th of September of 2021 (14-18:30), as a part of the EMBO workshop for Image processing in cryoEM

Tutorials

Connection

Please refer to your course material to access your credentials.

Dynamic of the course

The course is divided on different modules, described in the time schedule below. Each module is structured in three stages:

Demostration
all students are connected to the main room; goals of the module will be explained by an instructor.
Individual work
students go the breakout rooms they have been assigned and perform the tasks of the walkthrough in the tutorial.
an instructor will be assigned to each breakout room.
Common discussion
on the last 5 minutes of the module, we come back to the general breakout room for discussion of problems found.

Data location

Each module has one or several walkthroughs. The data of the walkthroughs is sometimes synthetic and created on the fly, and sometimes a data set is necessary. In such cases, the text of walkthrough will point to an on-line location where the data can be downloaded.
During this course, the data will be also available in the filesystem, you will not need to download it.

Time schedule

This time schedule is temptative

Day 1: tomography

day 'time
14:00 Introduction
14:30 tilt series alignment: manual
15:00 tilt series alignment (GUI)
15:30 tilt series alignment (command line)
16:00 Break
16:30 models: catalogue system
17:00 models: helical symmetry
17:30 models: vesicles and surfaces
18:00 Template matching


Day 2: Subtomogram averaging

'time subject
14:00 Introduction
14:30 Getting started: synthetic thermosomes
15:30 Advanced tutorial: FHV
16:00 Break
16:30 FHV: continuation
17:00 Seed oversampling
18:00 High resolution pipelines
18:20 Closing remarks

Contents

Alignment of tilt series

Data location: t.b.d.

Manual alignment of tilt series

We will click manually on the gold beads of our test tilt series Walkthrough on manual marker clicking

Automated alignment of tilt series through the GUI

Walkthrough on GUI based tilt series alignment

Automated alignment of tilt series through the command line

Walkthrough on command line based tilt series alignment

Models

Catalogues

Helical models

tutorial

Vesicle and surface models

tutorial on membrane modeling with dmslice

Reusing models

Reusing model workflows ( walkthrough)

Template matching

walkthrough for automated identification of proteosomes on a real tomogram through template matching. (~1 hour)
The data can be found in

/g/cryocourse/data/dynamo/t20s.mrc

Subtomogram averaging

Introduction

Advanced starters guide

Seed oversampling

 from densely packed spherical geometry   (~1 hour) 

The data is available at

/g/cryocourse/data/dynamo/v17.rec

High resolution pipeline

Not a tutorial per se: this is a presentation on a set of tools to interconnect Dynamo, M and other software.