🔬 EMBOMicroCom2: Metabolite and species dynamics in microbial communities 🧬
This repo hosts training materials for the second installment of EMBO's Practical Course Metabolite and species dynamics in microbial communities. More specifically, these are practical exercises for the computational session on flux balance analysis (FBA) using genome-scale metabolic models (GEMs). Some of the text and code chunks in the following exercises are based on selected portions of the cobrapy documentation.
- 1.1: Import a metabolic reconstruction
- 1.2: Inspect the reactions of your model
- 1.3: Inspect the metabolites in your model
- 1.4: Inspect the genes in your model
- 1.5: Run flux balance analysis (FBA)
- 1.6: Perform in-silico gene knockout experiments
- 2.1: Modify growth medium of your reconstruction
- 2.2: Perform gene essentiality analysis under different conditions
- 2.3: Case study, simulate the Crabtree effect in yeast
The following packages will already be installed on the provided machines:
To install on your own computers use the pip package manager.
Using the requirements.txt
files:
$ pip install -r requirements.txt
Or from scratch:
$ pip install cobra matplotlib numpy notebook
You will find everything you need for these practical exercises under the /notebooks
folder. Each tutorial is uploaded as .html
, .md
, .tex
, and .ipynb
files. As you carry out the exercises using the the python notebooks, you will find the original text and results in the html, markdown, and latex files.
You may run these exercises on your local machine by cloning this repo:
$ git clone https://github.com/franciscozorrilla/EMBOMicroCom2.git
Navigate into cloned repo folder:
$ cd EMBOMicroCom2
Launch interactive jupyter notebook session:
$ jupyter notebook
This should launch a browser window, where you can click on the /notebooks
folder and start the exercises.
Alternatively launch an interactive binder session by clicking below:
- metaGEM: Metagenomics-driven metabolic modelling tutorial using unseen bio samples
- SymbNET: From metagenomics to metabolic interactions
- EMBOMicroCom: Metabolite and species dynamics in microbial communities
- OLISSIPO: FBA and community simulations
- Updated by Francisco Zorrilla in September 2024
- Expanded by Francisco Zorrilla and Arianna Basile in January 2024
- Originally developed by Arianna Basile and Kiran Patil in January 2023
Feel free to get in touch with us by raising an issue or sending an e-mail to Francisco Zorrilla (fz274@cam.ac.uk).