New ChEMBL ligand-based target predictions docker image available

One year ago we published a new version of our target prediction models and since then we've been working on its implementation for the upcoming ChEMBL 26 release.

What did we do?

First of all we re-trained the models with the LightGBM library instead of using scikit-learn. By doing this and tuning a bit the parameters our prediction timing improved by 2 orders of magnitude while keeping comparable prediction power. Having quicker models allowed us to easily implement a simple web service providing real time predictions.

Since we are currently migration to a more sustainable Kubernetes infrastructure it made sense to us to directly write the small target prediction web service as a cloud native app. We then decided to give OpenFaaS a try as a platform to deploy machine learning models.

OpenFaaS is a framework for building serverless functions with Docker and Kubernetes. It provides templates for deploying functions as REST endpoints in many different programming languages (Python, Node, Java, Ruby, go...).

Our target predicitons OpenFaaS function source code is now available in our github repository. A Docker image with ready to use ChEMBL 25 trained models is also available here.

Does this mean that you won't be able to use the models without an Kubernetes/OpenFaaS installation? No way! It is also easy to start an instance in your local machine:

docker run -p 8080:8080 chembl/mcp:25

# in a different shell

curl -X POST -H 'Accept: */*' -H 'Content-Type: application/json' -d '{"smiles": "CC(=O)Oc1ccccc1C(=O)O"}' http://127.0.0.1:8080

Bear in mind that the service needs to load the models into memory, so it may take few minutes until it returns predictions. The predictions returned by the service are the ones for the models with CCR ((sensitivity + specificity) / 2) >= 0.85

Comments

Chris said…

Hi, Tried to use Docker

docker run -p 8080:8080 chembl/mcp
Forking - python [index.py]
2020/02/06 10:54:02 Started logging stderr from function.
2020/02/06 10:54:02 Started logging stdout from function.
2020/02/06 10:54:02 OperationalMode: http
2020/02/06 10:54:02 Timeouts: read: 10s, write: 10s hard: 10s.
2020/02/06 10:54:02 Listening on port: 8080
2020/02/06 10:54:02 Writing lock-file to: /tmp/.lock
2020/02/06 10:54:02 Metrics listening on port: 8081
2020/02/06 10:54:31 Upstream HTTP request error: Post http://127.0.0.1:5000/: dial tcp 127.0.0.1:5000: connect: connection refused
2020/02/06 10:54:46 Forked function has terminated: signal: killed

when I try this in another Terminal window

curl -X POST -H 'Accept: */*' -H 'Content-Type: application/json' -d '{"smiles": "CC(=O)Oc1ccccc1C(=O)O"}' http://127.0.0.1:8080

6 February 2020 at 10:58

Eloy said…

Hi Chris,

Are you using Docker on Windows or Mac?
It's default config (Docker on Windows and Mac actually runs inside a tiny VM) allows it only to use 2GB of RAM and it looks like it's killing the container process because Docker runs out of memory when loading the models.
You'll need to change Docker config to allow it to use 8GB of system memory.

Kind regards,
Eloy

6 February 2020 at 12:42

SureChEMBL Available Now

Followers of the ChEMBL group's activities and this blog will be aware of our involvement in the migration of the previously commercially available SureChem chemistry patent system, to a new, free-for-all system, known as SureChEMBL. Today we are very pleased to announce that the migration process is complete and the SureChEMBL website is now online. SureChEMBL provides the research community with the ability to search the patent literature using Lucene-based keyword queries and, much more importantly, chemistry-based queries. If you are not familiar with SureChEMBL, we recommend you review the content of these earlier blogposts here and here . SureChEMBL is a live system, which is continuously extracting chemical entities from the patent literature. The time it takes for a new chemical in the patent literature to become searchable in the SureChEMBL system is 1-2 days (WO patents can sometimes take a bit longer due to an additional reprocessing step). At time of writi

New SureChEMBL announcement

(Generated with DALL-E 3 ∙ 30 October 2023 at 1:48 pm) We have some very exciting news to report: the new SureChEMBL is now available! Hooray! What is SureChEMBL, you may ask. Good question! In our portfolio of chemical biology services, alongside our established database of bioactivity data for drug-like molecules ChEMBL , our dictionary of annotated small molecule entities ChEBI , and our compound cross-referencing system UniChem , we also deliver a database of annotated patents! Almost 10 years ago , EMBL-EBI acquired the SureChem system of chemically annotated patents and made this freely accessible in the public domain as SureChEMBL. Since then, our team has continued to maintain and deliver SureChEMBL. However, this has become increasingly challenging due to the complexities of the underlying codebase. We were awarded a Wellcome Trust grant in 2021 to completely overhaul SureChEMBL, with a new UI, backend infrastructure, and new f

ChEMBL & SureChEMBL anniversary symposium

In 2024 we celebrate the 15th anniversary of the first public release of the ChEMBL database as well as the 10th anniversary of SureChEMBL. To recognise this important landmark we are organising a two-day symposium to celebrate the work achieved by ChEMBL and SureChEMBL, and look forward to its future. Save the date for the ChEMBL 15 Year Symposium October 1-2, 2024 Day one will consist of four workshops, a basic ChEMBL drug design workshop; an advanced ChEMBL workshop (EUbOPEN community workshop); a ChEMBL data deposition workshop; and a SureChEMBL workshop. Day two will consist of a series of talks from invited speakers, a few poster flash talks, a local nature walk, as well as celebratory cake. During the breaks, the poster session will be a great opportunity to catch up with other users and collaborators of the ChEMBL resources and chat to colleagues, co-workers and others to find out more about how the database is being used. Lunch and refreshments will be pro

ChEMBL 34 is out!

We are delighted to announce the release of ChEMBL 34, which includes a full update to drug and clinical candidate drug data. This version of the database, prepared on 28/03/2024 contains: 2,431,025 compounds (of which 2,409,270 have mol files) 3,106,257 compound records (non-unique compounds) 20,772,701 activities 1,644,390 assays 15,598 targets 89,892 documents Data can be downloaded from the ChEMBL FTP site: https://ftp.ebi.ac.uk/pub/databases/chembl/ChEMBLdb/releases/chembl_34/ Please see ChEMBL_34 release notes for full details of all changes in this release: https://ftp.ebi.ac.uk/pub/databases/chembl/ChEMBLdb/releases/chembl_34/chembl_34_release_notes.txt New Data Sources European Medicines Agency (src_id = 66): European Medicines Agency's data correspond to EMA drugs prior to 20 January 2023 (excluding vaccines). 71 out of the 882 newly added EMA drugs are only authorised by EMA, rather than from other regulatory bodies e.g.

RDKit, C++ and Jupyter Notebook

Fancy playing with RDKit C++ API without needing to set up a C++ project and compile it? But wait... isn't C++ a compiled programming language? How this can be even possible? Thanks to Cling (CERN's C++ interpreter) and xeus-cling jupyter kernel is possible to use C++ as an intepreted language inside a jupyter notebook! We prepared a simple notebook showing few examples of RDKit functionalities and a docker image in case you want to run it. With the single requirement of docker being installed in your computer you'll be able to easily run the examples following the three steps below: docker pull eloyfelix/rdkit_jupyter_cling docker run -d -p 9999:9999 eloyfelix/rdkit_jupyter_cling open http://localhost:9999/notebooks/rdkit_cling.ipynb in a browser

The ChEMBL-og

Search This Blog