The ChEMBL-og

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Mapping lists of IDs in ChEMBL

In order to facilitate the mapping of identifiers in ChEMBL, we have developed a new type of search in the ChEMBL Interface. Now, it is possible to enter a list of ChEMBL IDs and see a list of the corresponding entities. Here is an example: 1. Open the ChEMBL Interface , on the main search bar, click on 'Advanced Search': 2. Click on the 'Search by IDs' tab: 3. Select the source entity of the IDs and the destination entity that you want to map to: 4. Enter the identifiers, you can either paste them, or select a file to upload. When you paste IDs, by default it tries to detect the separator. You can also select from a list of separators to force a specific one: Alternatively, you can upload a file, the file can be compressed in GZIP and ZIP formats, this makes the transfer of the file to the ChEMBL servers faster. Examples of the files that can be uploaded to the search by IDs can be found here . 5. Click on the search button: 6. You will be redirected to a search resul

ChEMBL 28 Released!

We are pleased to announce the release of ChEMBL_28. This version of the database, prepared on 15/01/2021 contains: * 2,680,904 compound records * 2,086,898 compounds (of which 2,066,376 have mol files) * 17,276,334 activities * 1,358,549 assays * 14,347 targets * 80,480 documents Data can be downloaded from the ChEMBL FTP site: https://ftp.ebi.ac.uk/pub/databases/chembl/ChEMBLdb/releases/chembl_28 . Please see ChEMBL_26 release notes for full details of all changes in this release: https://ftp.ebi.ac.uk/pub/databases/chembl/ChEMBLdb/releases/chembl_28/chembl_28_release_notes.txt DATA CHANGES SINCE THE LAST RELEASE This release includes several new deposited data sets: Donated Chemical Probes data from SGC Frankfurt (src_id = 54) SARS-CoV-2 screening data from the Fraunhofer Institute (src_id = 52) Antimicrobial screening data sets from CO-ADD (src_id = 40) Plasmodium screening data from the UCSD Winzeler lab (src_id = 51) MMV pathogen box screening data (src_id = 34) Curated data

Sequence similarity searches in ChEMBL

The ChEMBL database contains bioactivity data that links compounds to their biological targets. Most ChEMBL targets are proteins (~ 70% in version 27) and these are mapped to their UniProt accessions. On the ChEMBL interface, searches can be performed with either protein names or accessions...but did you know that protein similarity searches are also possible? Here’s an example using human Phospholipase DDHD2 , a target not found in ChEMBL. 1. On the ChEMBL interface , click 'Enter a Sequence: 2. Input the FASTA sequence corresponding to human Phospholipase DDHD2 and click 'Search in ChEMBL': 3. Review the BLAST results, select targets of interest and browse bioactivity data: The BLAST search identifies the mouse Phospholipase DDHD2 homologue alongside a small number of bioactivity data points and active compounds . ChEMBL's sequence search feature is currently only available through the interface. However, sequence data for prote

Data checks

ChEMBL contains a broad range of binding, functional and ADMET type assays in formats ranging from in vitro single protein assays to anti proliferative cell-based assays. Some variation is expected, even for very similar assays, since these are often performed by different groups and institutes. ChEMBL includes references for all bioactivity values so that full assay details can be reviewed if needed, however there are a number of other data checks that can be used to identify potentially problematic results. 1) Data validity comments: The data validity column was first included in ChEMBL v15 and flags activities with potential validity issues such as a non-standard unit for type or activities outside of the expected range. Users can review flagged activities and decide how these should be handled. The data validity column can be viewed on the interface (click 'Show/Hide columns' and select 'data validity comments') and can be found in the activities table in the

Molecule hierarchy

During drug development, active pharmaceutical ingredients are often formulated as salts to provide the final pharmaceutical product. ChEMBL includes parent molecules and their salts (approved and investigational) as well as other alternative forms such as hydrates and radioisotopes. These alternative forms are linked to their parent compound through the molecule hierarchy. Using the molecule hierarchy The molecule hierarchy can be used to retrieve and display connected compounds and to aggregate activity data that has been mapped to any member of a compound family. On the interface, related compounds are automatically displayed in the ‘Alternative forms’ section of the ChEMBL compound report card. Bioactivity data can easily be aggregated in the activity summary by using the 'Include/Exclude Alternative Forms' filter. Finding the molecule hierarchy On the interface, we include alternative forms as shown above. The downloaded database contains the molecule_hierarchy table

Using ChEMBL activity comments

We’re sometimes asked what the ‘activity_comments’ in the ChEMBL database mean. In this Blog post, we’ll use aspirin as an example to explain some of the more common activity comments. First, let’s review the bioactivity data included in ChEMBL. We extract bioactivity data directly from seven core medicinal chemistry journals . Some common activity types, such as IC50s, are standardised to allow broad comparisons across assays; the standardised data can be found in the standard_value , standard_relation and standard_units fields. Original data is retained in the database downloads in the value , relation and units fields. However, we extract all data from a publication including non-numerical bioactivity and ADME data. In these cases, the activity comments may be populated during the ChEMBL extraction-curation process in order to capture the author's overall conclusions . Similarly, for deposited datasets and subsets of other databases (e.g. DrugMatrix, PubChem), th