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Category: Workshop

Feb 3-5 2020, Perth, AUS (beginner, omics and microbiome)

We had a great group of participants at UWA and were hosted in the beautiful Forrest Hall facility from the Forrest Research Foundation.

Some feedback from the participants:

‘I liked that simple concepts were explained, to facilitate understanding of the complex ones. It is always nice to recap on the basics’

‘[It] Provided me with novel insights for my research and how to approach and interpret the data from an integrated statistical/computational and biological point of view.’

‘I liked you took some time to explain the concept behind the statistical tool, useful examples to clarify the concepts. After this workshop, it is going to be much easier to make better decisions about future experimental designs (or recommendations for other experiments) and the application of specific statistical tool as MixOmics. I will definitely apply mixMC to the data I am preparing for a publication. I appreciate you granted me the bursary. This workshop has uplifted my microbiome-applied statistical skills.’

This was a great workshop and it exceed my expectations’

 I could complete all the exercises based on the material provided (which was great, with very clear instructions!). Most importantly, I acquired a better understanding of how I should approach my data in the future when my new project is in a more advanced stage. In other words, I now have a better idea of the packages and tools available and what to focus on in terms of skills development. I am also feeling a lot more confident to interpret complex plots generated in these multivariate analyses and make further decisions based on them and my research question.

Context. Advances in high-throughput technologies have transformed the way we examine molecular information, including microbial communities. However, analytical tool development is critically trailing behind data generation, which hinders the analysis, understanding or integration of microbiome data with other types of molecular data. Data integration adopt a holistic, data-driven and hypothesis-free approach. This new approach is necessary to understand the role of biological systems and posit new hypotheses.

The workshop will introduce concepts of multivariate dimension methods developed in mixOmics for statistical analysis. Our methods make no distributional assumptions, are highly flexible for unsupervised (exploratory), supervised (classification) and integration analyses. Various analytical frameworks will be presented ranging from data exploration, selection of markers, integration with other omics datasets and introduction to time-course analysis.

Each methodology will be illustrated on real biological studies. The third day is ‘BYO data’ day where you can reinforce your learnings on your own study! The workshop is not limited to microbiome data only, as we will cover general omics data integration concepts with appropriate case studies if the need arise.

Instructor: Dr Kim-Anh Lê Cao;Tutor: TBA

Organized and hosted by: West Australian Heath Translational Network (WAHTN) and WA Human Microbiome Collaborating Centre (WAHMCC), Curtin University.

Fees for 3 days are AUD450+GST for RHD students, AUD750+GST for research non-profit organisations (Universities and CSIRO) and AUD1200+GST for industry. The West Australian Heath Translational Network generously sponsors registration bursaries ($225 to support 50% of the registration costs) to 4 RHD students. Apply at the EOI survey link below.

Registrations fees include coffee breaks, lunch, lecture notes and electronic material (slides, R code, data).

Registration Express your interest at this survey link. As we have a limited number of participants (30), priority will be given to postgraduate students and early career researchers. EOI for bursaries closes on November 4 2019 5pm AEST, but there are still spots for non bursaries. Results announced to the participants with details for registration.

Location: Forrest Hall, 35 Stirling Highway, Crawley WA 6009, Australia. Google map.

Accommodation: short stay can be booked at Forrest Hall ($120/night)

Contact: mixomics[ at] math.univ-toulouse.fr (for pre-requisite or content)

Prerequisite and requirements We require from the trainees a good working knowledge in R programming (e.g. handling data frame, perform simple calculations and display simple graphical outputs) to fully benefit from the workshop. Participants are requested to bring their own laptop, having installed the software RStudio http://www.rstudio.com/and the R package mixOmics (instructions will be provided prior to the training).

Outline

Day 1 & 2: methods and hands-on. The following broad topics will be covered.

A. Key methodologies in mixOmics and their variants:

  • Basic processing of count data (scaling, how to handle compositional data)
  • Exploration of one data set and how to estimate missing values
  • Identification of a microbial signature to discriminate different treatment groups
  • Integration of two data sets and identification of microbial markers
  • Introduction to repeated measurements or longitudinal studies analysis
  • How to deal with batch effects
  • Integration of more than two data sets to identify multi omics signatures (if sufficient interest)
  • Integration of independent but related studies (optional)

B. Review on the graphical outputs implemented in mixOmics

  • Sample plot representation
  • Variable plot representation for data integration
  • Other useful graphical outputs

C. Case studies and applications

Several microbiome and omics studies will be analysed using the methods presented above.

Day 3: bring your own data. Participants will be given the opportunity to analyse their own data under the guidance and the advice of the three instructors. Participants can also work in a team. Some data sets will also be provided for those unable to bring their own data.

The following statistical concepts will be introduced: covariance and correlation, multiple linear regression, classification and prediction, cross-validation, selection of markers, penalised regressions. Each methodology will be illustrated on a case study (theory and application will alternate).

Target group The course is intended for microbiologists working in the fields of bioinformatics, computational biology and applied statistics with some statistical knowledge and a good working knowledge in R. It will be particularly useful to those interested in:

  1. Exploring data sets.
  2. Selecting molecular / microbial features with methods implementing LASSO-based penalisations.
  3. Using graphical techniques to better visualise data.
  4. Understanding and/or applying multivariate projection methodologies to large data sets.

Anticipated learning outcomes After completion of this workshop, participants will be able to

  1. Understand fundamental principles of multivariate projection-based dimension reduction technique.
  2. Perform statistical integration and feature selection using recently developed multivariate methodologies.
  3. Apply those methods to high throughput microbiome studies, including their own studies.

Nordic Precision Medicine Forum, 18-19 march 2019

The mixOmics team will present at the Nordic Precision Medicine Forum in Stockholm, 18-19 march 2019. Sébastien Déjean will give a talk about Data integration: Examining Statistical Methods for the Exploration and Integration of Heterogeneous Biological Data Sets.

Nordic Precision Medicine Forum brings together those at the very forefront of precision medicine from biologists, physicians and technology developers to data scientists, patient groups, governments and more.

April 15 – 17 2019, Melbourne AUS (beginner, microbiome)

Our participants for our first microbiome-dedicated workshop

Feedback from the workshop: This time we included several new case studies specifically focused on microbiome applications. We presented new material, including the problem of compositional data, how to detect and assess existing methods for batch effects (Ms Yiwen (Eva) Wang, PhD student) and our first timeOmics pipeline (Dr Olivier Chapleur).

‘I was especially pleased with the pace of the workshop. There was time to ask questions during lectures and practice. The pracs were designed to be relevant to our actual research questions.’

The event was sponsored by AFRAN and we obtained 50% bursaries from EMRI UoM for 5 PhD students.

‘Good contextualisation of methods before application of them, lots of depth on the background to methods which was important even when concepts were very complex. ‘I think the case studies were really helpful. The R code is written in such a clear and digestible way that it was easy to apply to my own data’

‘The pace and depth was good. All topics covered were highly relevant, and techniques were directly applicable. The ‘mood’ of the workshop was very friendly.’

Complex microbial networks have a central role in the provision and regulation of ecosystems. Multiple microbial biotechnology applications are contributing to global efforts to achieve sustainability – through purification of wastewater, waste valorisation, bioenergy production, or to understand the role of microbiome in human disease and healthy states.

Statistical analysis of microbiome data is challenging due to the inherent characteristics of the data, such as high sparsity and compositional structure. Our workshop will introduce major concepts including multivariate dimension methods developed in mixOmics. Our methods make no distributional assumptions, are highly flexible for unsupervised (exploratory), supervised (classification) and integration analyses.

This hands-on course will cover basic processing and inherent characteristics of microbiome data (compositionality, batch effects), various analytical frameworks ranging from data exploration, selection of microbial markers, integration with other omics datasets and introduction to time-course analysis. Each methodology introduced in the workshop will be illustrated on real biological studies. The third day is ‘BYO data’ day where you can reinforce your learnings on your own study!

Instructor: Dr Kim-Anh Lê Cao and Dr Olivier Chapleur; Tutor: Ms Laetitia Cardonna. The travels of Olivier and Laetitia is proudly sponsored by AFRAN, the Australian-French Association for Research and Innovation. 

Organized byMelbourne Integrative Genomics, University of Melbourne

Fees for 3 days are AUD500 for RHD students, AUD900 for research non-profit organisations and AUD1500 for industry / government. The Environmental Microbiology Research Initiative EMRI (University of Melbourne) proudly sponsors registration bursaries ($225 to support some of the registration costs) to 5 RHD students enrolled at UoM. Apply at the EOI survey link below.

Registrations fees include coffee breaks, lunch, lecture notes and electronic material (slides, R code, data).

Location: Theatre 4 Alan Gilbert Building, University of Melbourne

Registration Express your interest at this survey link. As we have a limited number of participants (30), priority will be given to postgraduate students and early career researchers. EOI closes on March 11.

Contacts mixomics[ at] math.univ-toulouse.fr (for pre-requisite or content)

Prerequisite and requirements We require from the trainees a good working knowledge in R programming (e.g. handling data frame, perform simple calculations and display simple graphical outputs) to fully benefit from the workshop. Participants are requested to bring their own laptop, having installed the software RStudio http://www.rstudio.com/and the R package mixOmics (instructions will be provided prior to the training).

Outline

Day 1 & 2: methods and hands-on. The following broad topics will be covered.

A. Key methodologies in mixOmics and their variants:

  • Basic processing of count data (scaling, how to handle compositional data)
  • Exploration of one data set and how to estimate missing values
  • Identification of a microbial signature to discriminate different treatment groups
  • Integration of two data sets and identification of microbial markers
  • Introduction to repeated measurements or longitudinal studies analysis
  • How to deal with batch effects
  • Integration of more than two data sets to identify multi omics signatures (if applicable)
  • Integration of independent but related studies (if applicable)

B. Review on the graphical outputs implemented in mixOmics

  • Sample plot representation
  • Variable plot representation for data integration
  • Other useful graphical outputs

C. Case studies and applications

Several microbiome studies will be analysed using the methods presented above.

Day 3: bring your own data. Participants will be given the opportunity to analyse their own data under the guidance and the advice of the three instructors. Participants can also work in a team. Some data sets will also be provided for those unable to bring their own data.

The following statistical concepts will be introduced: covariance and correlation, multiple linear regression, classification and prediction, cross-validation, selection of microbial markers, penalised regressions. Each methodology will be illustrated on a case study (theory and application will alternate).

Target group The course is intended for microbiologists working in the fields of bioinformatics, computational biology and applied statistics with some statistical knowledge and a good working knowledge in R. It will be particularly useful to those interested in:

  1. Exploring microbiome data sets.
  2. Selecting microbial features with methods implementing LASSO-based penalisations.
  3. Using graphical techniques to better visualise data.
  4. Understanding and/or applying multivariate projection methodologies to large data sets.

Anticipated learning outcomes After completion of this workshop, participants will be able to

  1. Understand fundamental principles of multivariate projection-based dimension reduction technique.
  2. Perform statistical integration and feature selection using recently developed multivariate methodologies.
  3. Apply those methods to high throughput microbiome studies, including their own studies.


June 4-6 2019, Toulouse, FR (beginner, 3 days)

We will be running a three-day workshop in June 2019 in Toulouse at the introductory level.

We will be running a three-day workshop in June 2019 in Toulouse at the introductory level.

Instructors: Dr Sébastien Déjean

Organized by: GenoToul Biostatistics

Dates: 4-6 june 2019

Registration and registration fees: before 17 may 2019, using this form. Fees are: academic (500€), private (1000€), see more details below in the link provided.

Language: French or English depending on the attendees

Contact mixomics[ at] math.univ-toulouse.fr

Prerequisite and requirements We require from the trainees a good working knowledge in R programming (e.g. handling data frame, perform simple calculations and display simple graphical outputs) to fully benefit from the workshop. Participants are requested to bring their own laptop, having installed the software RStudio http://www.rstudio.com/and the R package mixOmics (instructions will be provided prior to the training).

More details can be found here (in french): https://perso.math.univ-toulouse.fr/biostat/2018/12/07/formation-mixomics/


Nov 6 2018, Vancouver (microbiome)

Note: this workshop is primarily restricted to Microbiome Research Network students at UBC until Oct 22 when the registration will be open outside MRN if space is available.

About the Workshop 

The objective of this workshop is to introduce fundamental concepts of multivariate dimension reduction methodologies for biological data analysis. Each methodology presented during the course will be applied to case studies available in the R package mixOmics.

Methods for multivariate data analysis, data visualisation and microbial signature identification will be covered, as well as an introduction for multi-omics data integration.

You will learn how to:

  • Understand fundamental principles of multivariate projection-based dimension reduction techniques.
  • Perform statistical integration and feature selection using recently developed multivariate methodologies.
  • Apply those methods to high throughput biological studies, including your own studies.

This a special workshop offering as part of the Microbiome Research Network’s Exploring the Microcosmos Symposium. Tickets are available to MRN members only until Oct 22. At this time, additional tickets will be made publicly available if space is available.

 Pre-requisites

Introduction to R”, EDUCE modules in MICB 301/405/425, or equivalent knowledge of R.

 MRN students

Microbiome Research Network (MRN) students should contact info.ecoscope@ubc.ca with 1) their name, 2) their PI’s name, and 3) the name of workshop to receive a registration code.

 Instructor

Dr Kim-Anh Lê Cao (University of Melbourne, Australia) was awarded her PhD in 2008 at Université de Toulouse, France. She then moved to Australia as a postdoctoral fellow at the University of Queensland, Brisbane. Since the beginning of her PhD Kim-Anh has initiated a wide range of valuable collaborative and research opportunities in both statistics and molecular biology. Her main research focus is on variable selection for biological data (`omics’ data) coming from different functional levels by the means of multivariate dimension reduction approaches. Since 2009, her team has been working on developing a statistical software dedicated to the integrative analysis of ‘omics’ data, to help researchers make sense of biological big data. Kim-Anh is a senior lecturer at the University of Melbourne (Melbourne Integrative Genomics, School of Mathematics and Statistics), and regularly runs statistical training workshops and short series seminars as well as mixOmics multi-day workshops.

Software requirements for 2020 mixOmics workshops

We list below some installation requirements to ensure the mixOmics workshop will run smoothly for everyone. Please update / install prior to the workshop to avoid a WIFI backload.

Software installation and updates. 

0 – Mac OS users only: install X Quartz first https://www.xquartz.org/

1 – Install the mixOmics package from Bioconductor You may need to install the latest R version and the latest BiocManager package installed following these instructions (if you use R versions <=3.5.0) refer to the instructions at the end of the link). Install mixOmics using the following code:

## install BiocManager if not installed if (!requireNamespace("BiocManager", quietly = TRUE))     install.packages("BiocManager") 
## install mixOmics 
BiocManager::install('mixOmics')

The mixOmics package should directly import the following packages: igraph, rgl, ellipse, corpcor, RColorBrewer, plyr, parallel, dplyr, tidyr, reshape2, methods , matrixStats , rARPACK, gridExtra .

1 alternative – To obtain the latest update of mixOmics(as Bioconductor updates every 6 months our package) you will need to pull from our gitHub page via the devtools and the install_github libraries. Install the libraries ‘devtools’ in R, then load and install mixOmics from gitHub:

install.packages("devtools")
# then load
library(devtools)
install_github("mixOmicsTeam/mixOmics")

2 – Check after install that the following does not throw any error (see step 0) and that the welcome message confirms you have installed version > 6.10. If this is not the case, try step 1 alternative (installation from gitHub):

>library(mixOmics) 
Loaded mixOmics 6.10.x

We also advise using the software RStudio

If R makes any complain, you may have to install the latest R version here: https://cran.r-project.org/

Wifi will be available on site, but it is preferable that you make those installations before the workshop to avoid delays for the analyses.

Any question regarding the requirements and software installation: email us at mixomics[at]math.univ-toulouse.fr

July 8 2018, Barcelona, SP (Introductory)

The registrations are now closed as we have reached above and beyond capacity! (53 registrations! Many thanks for your interest!)

We will be running a one-day workshop as part of the XXIX International Biometric Conference (IBC 2018).

Instructors: Dr Kim-Anh Lê Cao and Dr Sébastien Déjean

Organized and sponsored by IBC 2018

Dates 8 July 9am – 5pm

Practical information Register at the IBC website, early bird close 16th April!

Contact mixomics[ at] math.univ-toulouse.fr

Prerequisite and requirements We require from the trainees a good working knowledge in R programming (e.g. handling data frame, perform simple calculations and display simple graphical outputs) to fully benefit from the workshop. Participants are requested to bring their own laptop, having installed the software RStudio http://www.rstudio.com/and the R package mixOmics (instructions will be provided prior to the training).

More details can be found here:

http://2018.biometricconference.org/course-2/

April 12-13 2018, Sydney, AUS

[The workshop is restricted to WestMead staff only]

The objective of this workshop is to introduce the fundamental concepts of multivariate dimension reduction methodologies. Those methods are particularly useful for data exploration and integration of large data sets, and especially in the context of systems biology, or in research areas where statistical data integration is required. Each methodology that will be presented during the course will be applied on biological “omics” studies including transcriptomics, metabolomics and proteomics and microbiome data sets using the R package mixOmics (https://mixomics.org/).

Instructor: Dr Kim-Anh Lê Cao

Tutor: Ms Eva Yiwen Wang (Melbourne Integrative Genomics, University of Melbourne)

Organized and sponsored by Westmead Hub Bioinformatics (Dr Erdalh Teber)

Dates 12 April 2-5pm and 13 April 9-12pm

Practical information The workshop is free of charge for all participants. Priority will be given to students and early career researcher. The workshop includes tuition, course material. The workshop excludes tea/coffee and lunch during the breaks

Location Seminar rooms 1/2 – Children’s Medical Research Institute, 214 Hawkesbury Rd, Westmead NSW 2145

Contact mixomics[ at] math.univ-toulouse.fr

Prerequisite and requirements We require from the trainees a good working knowledge in R programming (e.g. handling data frame, perform simple calculations and display simple graphical outputs) to fully benefit from the workshop*. Participants are requested to bring their own laptop, having installed the software RStudio http://www.rstudio.com/and the R package mixOmics (instructions will be provided 2 weeks prior to the training).

*A few online resources we highly recommend to refresh / get an introduction to R:

  • O’Reilly Code School TryR – this is a truly fantastic online interactive introduction to learning basic skills in R.  Warning: the tutorial has a persistent pirate metaphor.
  • twotorials – 2 minute videos that teach you how to do simple tasks in R. “got two minutes? Learn some statistical programming in R.  Its easy, free, and FUN!”
  • Data camp free Introduction to R to master the basics in R. ‘With the knowledge gained in this course, you will be ready to undertake your first very own data analysis’

Outline

Half day 1: multivariate analysis of one dataset

  1. Exploration of one data set with Principal Component Analysis and visualisations
  • Identification of biomarkers to discriminate different treatment groups with PLS-Discriminant Analysis

Half day 2: integrative analysis of multiple datasets

  1. Data integration with multivariate projection-based methods and identification of multi-omics signatures
  2. Graphical visualisations for data integration analyses

 

July 23-25 2018, Melbourne AUS (beginner)

This was our first workshop on the Melbournian grounds. 34 participants joined the workshop, including 10 ECR and PhD students who received CBRI funding.

Some feedback from the workshop from our participants
What did you like about that workshop?
It was a really good balance between the statistical background and hands-on application of mixOmics software. Kim-Anh and Sebastien were both fantastic instructors and introduced challenging concepts in a very clear way. Slides, notes and R scripts will be a great resource.
‘Very systematic and concise delivery on these methods. Cases are also very good. Extremely helpful for me handling my 16s data.’
‘It was really well taught and both instructors were excellent teachers – I felt like I could keep up even though at some points it was really difficult. The R code was great and will be really helpful for working with my own data. I also liked to opportunity to have a whole half day working on our own data

Kim-Anh explaining multivariate challenges for microbiome data

Ice breaker dinner on the first day

A debrief session each morning with Sebastien running the show.

With the advent of high-throughput sequencing technologies, multivariate dimension reduction methods propose powerful statistical analyses to obtain a first understanding of large and complex data sets. They provide insightful visualisations, are efficient on large data sets and make little assumptions about the distribution of the data. In addition, they are highly flexible as unsupervised (exploratory) or supervised (classification) analyses can be performed. The latest innovative developments in this exciting and fast-moving area of research include and integration of different types of data sets and variable selection.       This hands-on course will introduce key concepts in multivariate dimension reduction, starting first with Principal Component Analysis, then with innovative approaches for statistical integration of multiple data sets with a particular focus on variable selection. Nineteen methods are currently available in the mixOmics package, amongst which thirteen are developed by the mixOmics team. Each methodology introduced in the workshop will be illustrated on real biological studies directly available from the package.

Instructor: Dr Kim-Anh Lê Cao and Dr Sébastien Déjean

Organized by: Melbourne Integrative Genomics, University of Melbourne

Fees for 3 days are AUD450 for RHD students, AUD600 for UoM or affiliates based on the Parkville campus, AUD900 for external non-profit organisations and AUD1200 for industry / government. The Computational Biology Research Initiative (University of Melbourne) proudly sponsors registration bursaries (50% of the registration costs) to 5 RHD students enrolled at UoM and 5 ECR (<= 3 years post PhD, full time equivalent) UoM or affiliate based on the Parkville campus, indicate your eligilibity at the survey link below.

Registrations fees include coffee breaks, lunch and one ice-breaker dinner (Monday 23 July evening), lecture notes and electronic material (slides, R code, data).

Location: Room 101 Alan Gilbert Building, University of Melbourne

Registration A link for registration has been sent to all selected participants. Priority was given to postgraduate students and early career researchers, with a maximum of 30 participants.

Contacts mixomics[ at] math.univ-toulouse.fr (for pre-requisites)

Prerequisite and requirements We require from the trainees a good working knowledge in R programming (e.g. handling data frame, perform simple calculations and display simple graphical outputs) to fully benefit from the workshop. Participants are requested to bring their own laptop, having installed the software RStudio http://www.rstudio.com/and the R package mixOmics (instructions will be provided prior to the training).

Outline

Day 1 & 2: methods and hands-on. The following broad topics will be covered.

A. Key methodologies in mixOmics and their variants:

  • Exploration of one data set and how to estimate missing values
  • Identification of biomarkers to discriminate different treatment groups
  • Integration of two data sets and identification of biomarkers
  • Repeated measurements design
  • Integration of more than two data sets to identify multi omics signatures

B. Review on the graphical outputs implemented in mixOmics

  • Sample plot representation
  • Variable plot representation for data integration
  • Other useful graphical outputs

C. Case studies and applications

Five case studies will be analysed using the methods presented above, with a focus on transcriptomics, proteomics and 16S metagenomics data sets.

 Day 3: bring your own data. Participants will be given the opportunity to analyse their own data under the guidance and the advice of the instructors. Participants can also work in a team. Some data sets will also be provided for those unable to bring their own data.

The following statistical concepts will be introduced: covariance and correlation, multiple linear regression, classification and prediction, cross-validation, selection of diagnostic or prognostic markers, l1 and l2 penalties in a regression framework. Each methodology will be illustrated on a case study (theory and application will alternate). Note that mixOmics is not limited to biological data only and can be applied to other type of data where integration is required.

Target group The course is intended for data analysts in the fields of bioinformatics, computational biology and applied statistics with some statistical knowledge and a good working knowledge in R. It will be particularly useful to those interested in:

  1. Exploring large data sets.
  2. Selecting features with methods implementing LASSO-based penalisations.
  3. Using graphical techniques to better visualise data.
  4. Understanding and/or applying multivariate projection methodologies to large data sets.

 Anticipated learning outcomes After completion of this workshop, participants will be able to

  1. Understand fundamental principles of multivariate projection-based dimension reduction technique.
  2. Perform statistical integration and feature selection using recently developed multivariate methodologies.
  3. Apply those methods to high throughput biological studies, including their own studies.

June 7-8 June 2018, Saclay, FR (advanced)

The objective of this advanced workshop is to introduce the fundamental concepts of multivariate dimension reduction methods for the integration of high-throughput biological data sets. The aim of this workshop is to introduce our latest mixOmics integrative frameworks and in particular N-integration with DIABLO where several ‘omics data sets measured on the same biological samples or specimens but using different types of technological platforms (this excludes SNP and categorical data). The aim is to identify a correlated multi-‘omics molecular signature explaining a phenotype of interest. The workshop will also introduce another type of integration for cross-platform comparison and the combination of independent studies: P-integration with MINT considers independent data sets measured on the same P variables (e.g. genes) but in different studies, and generated from different labs. The aim is to identify a robust molecular signature across those independent studies (note: mostly focused on gene expression data).

Some feedback from the workshop from our participants
What did you like about that workshop? The combination of lectures and hands on data analysis. The material was presented in a digestible manner for a variety of researchers in different fields; The balance between practice and theory. The fact that even ongoing developments are on the program; It had a good pace and it was deep enough in the methods. Right to the point;  It was great. I like that it’s only two days and that it’s not too basic. Also great to have time to test our data or some example datasets at our pace; Keep up the good work 🙂

Studious! ‘[I liked] the way the theory and the hands on where combined, blocks of two hours were a good measure’
Instructor: Dr Kim-Anh Lê Cao

Tutor: Dr Olivier Chapleur 

Organized and sponsored by:  Professeurs Invites program Université d’Evry and Institute for Plant Science Saclay (IPS2).

Dates  7-8 June, 2 days, 9am-5pm

Practical information Registration fees are 200 EUR for postgraduate students, 300EUR for academics and 600 EUR for participants from the private sector. The workshop includes tuition, course material, morning and afternoon coffee breaks and lunch.

LocationInstitut de Sciences des Plantes – Paris-Saclay (IPS2), Gif-sur-Yvette (Parisian region), salle rouge.

Registration EOI is now closed. You will be contacted to register to the workshop. Priority will be given to postgraduate students and early career researchers, with a maximum of 30 participants.

Accommodation options In a true French fashion, bear in mind that the 7-8th June have been declared as striking days (not from the mixOmics team, I must reassure you!), therefore public transport might be severely affected. Best is too book a hotel nearby
    1 – a few min walk to the IPS2 campus where the workshop will take place: Campanile Paris Sud – Saclay (preferred options given the circumstances)
   2 – between 30 – 40 min RER train + walk
Séjours & Affaires Atlantis – MASSY
Aparthotel Adagio access Paris Massy Gare TGV
Residhome Appart Hotel Paris-Massy
Mercure Paris Massy Gare TGV

Contacts mixomics[ at] math.univ-toulouse.fr (for pre-requisites)

Prerequisite and requirements This is a semi-advanced workshop. We require from the trainees a very good working knowledge in R programming (e.g. R is used on a weekly basis to perform data mining and statistical data analyses) as well as some experience in using basic mixOmics methods (PCA and PLS-DA with parameter tuning along with interpretation of mixOmics graphical outputs) to be able to benefit from the workshop. Participants are requested to bring their own laptop, having installed the software RStudio http://www.rstudio.com/and the R package mixOmics (instructions will be provided prior to the training).

Outline

Day 1 (9am – 5pm).

  • sPLS-DA refresher, including microbiome data analysis
  • Some time for data analysis
    Lunch
  • DIABLO
  • Some time for the analysis of your own data
  • Ice breaker dinner (to your own cost, we will advise of the venue, near the workshop)

Day 2 (9am – 5pm).

  • Case study highlight on DIABLO (Gregory)
  • MINT to integrate independent studies/ protocols
  • Case studies highlights on MINT (Olivier: 16S data, Kim-Anh: single cell data)
    Lunch
  • Longitudinal / time course omics study: updates and where we are going next
  • Case study highlight on time course omics data integration with sPLS, block.spls (Kim-Anh: metagenomics study, see slide deck)
  • Some time for data analysis, debrief and departure.