Reactome is a free, open-source, open access, curated and peer-reviewed knowledgebase of biomolecular pathways. Knowledge in Reactome is captured as instances of the classes with their associated attributes. The Reactome data model is comprised primarily of classes of Pathways, Reactions and PhysicalEntities (e.g. proteins, small molecules) that are organized in a hierarchical manner (Pathways contain Reactions, Reactions contain PhysicalEntities). Classes have attributes that hold properties of the represented class instances, such as names, identifiers, etc.
The ReactomeContentService4R
package provides an interface to query Reactome data from the Content Service. This package allows you to query Reactome’s Content Service using many of the same endpoints available on the website, but formats the returned data in R Data Frames. For example, you can query all of the participants/PhysicalEntities in a Reaction by providing its stable identifier (‘R-HSA-123456’) to the getParticipants("R-HSA-123456", retrieval="PhysicalEntities")
method in the package. This will return an R Data Frame that will hold the same attributes as the Content Service query curl -X GET "https://reactome.org/ContentService/data/participants/R-HSA-123456" -H "accept: application/json"
.
Similar functionality exists for a number of other Reactome Content Service endpoints, which is outlined further below in this document. You can retrieve specific instances, or all instances within a specific Class (eg: Pathway or Complex); Generate mappings, such as PhysicalEntity-to-Events (ie. Proteins to Reactions) mappings, or non-Reactome identifiers (such as UniProt) to Events/PhysicalEntities (for example, Reactome Proteins containing UniProt identifiers) mappings; Export or view Reactome’s Pathway/Reaction diagrams, and much more!
Install from Bioconductor:
if (!requireNamespace("BiocManager")) {
install.packages("BiocManager")
}
BiocManager::install("ReactomeContentService4R")
## Connecting...welcome to Reactome v76!
To retrieve instances of one Class, you can use getSchemaClass
. This function would first show how many instances belong to the specified Class in the Reactome Database, and return 1000 instances by default. If you want to retrieve all instances of one Class, specify all = TRUE
.
Argument species
could be specified here but only for Event or subclasses with species attribute under PhysicalEntity (i.e. Complex, EntitySet, etc). Some attributes are also retrieved and thus they can be used to filter. For example, to fetch all human pathways, and then select those in disease:
# Fetch all Human Pathways
pathways <- getSchemaClass(class = "Pathway", species = "human", all = TRUE)
## Total 2516 entries of Pathway with species Homo sapiens, retrieving 2516 of them...
##
|
| | 0%
# Filter Disease Pathways from results
disease.pathways <- pathways[pathways$isInDisease == TRUE, ]
head(disease.pathways, 5)
Now that we have got all those disease pathways, we can look into what disease(s) associated with a pathway of your interest. The query
function could fetch all attributes of an instance with any Class by its database id or stable id. It also lists any second level relationships regarding regulations and catalysts. As an example, to retrieve one of the human disease pathway “Activated point mutants of FGFR2” with identifier R-HSA-2033519:
# Fetch the Reactome object with all attributes using a given id
hsa.2033519 <- query(id = "R-HSA-2033519")
str(hsa.2033519, max.level = 1)
## List of 24
## $ dbId : int 2033519
## $ displayName : chr "Activated point mutants of FGFR2"
## $ stId : chr "R-HSA-2033519"
## $ stIdVersion : chr "R-HSA-2033519.1"
## $ created :List of 5
## $ modified :List of 5
## $ isInDisease : logi TRUE
## $ isInferred : logi FALSE
## $ name : chr "Activated point mutants of FGFR2"
## $ releaseDate : chr "2012-06-12"
## $ speciesName : chr "Homo sapiens"
## $ authored :'data.frame': 1 obs. of 5 variables:
## $ compartment :'data.frame': 3 obs. of 9 variables:
## $ disease :'data.frame': 2 obs. of 10 variables:
## $ edited :'data.frame': 1 obs. of 5 variables:
## $ literatureReference:'data.frame': 17 obs. of 11 variables:
## $ reviewed :'data.frame': 1 obs. of 5 variables:
## $ species :'data.frame': 1 obs. of 8 variables:
## $ summation :'data.frame': 1 obs. of 5 variables:
## $ hasDiagram : logi FALSE
## $ hasEHLD : logi FALSE
## $ hasEvent :'data.frame': 10 obs. of 15 variables:
## $ schemaClass : chr "Pathway"
## $ className : chr "Pathway"
The schemaClass
of R-HSA-2033519 is Pathway since we get this id by getSchemaClass
for Pathway. Likewise, we can always access what Class an instance belongs to using query
.
Here we look into the disease slot to find disease associated with this Pathway:
We can see that the pathway “Activated point mutants of FGFR2” is related to two disease: “bone development disease” and “cancer”. If you want to know more about bone development disease, you may try to use the query
function again with its dbId to obtain more details. However, you would just get a Reactome Disease object that doesn’t include any other biological insights in Reactome. For now, you can use searchQuery
function which fetches all instances associated with a term:
# Search for a human disease name
bdd.search <- searchQuery(query = "bone development disease", species = "human")
## Searching for term 'bone development disease'... species:'Homo sapiens'
# the entries dataframe for the first row, with typeName 'Pathway'
(bdd.search[["results"]])[[1]][[1]]
The result instances are primarily faceted by types available for this query term. As such, you could know what pathways (the above dataframe), reactions, proteins, etc. are related to the bone development disease in human.
Filters in searchQuery()
include species
, types
, compartments
, keywords
; all the items for filtering can be viewed using function listSearchItems
. For more details, see ?listSearchItems
.
Events represent biological processes and are further subclassed into Pathways and ReactionLikeEvents in Reactome. ReactionLikeEvents are single-step molecular transformations. Pathways are ordered groups of ReactionLikeEvents that together carry out a biological process.
Participants of a given Event (e.g. reactions of a pathway, participating molecules of a reaction) can be retrieved using function getParticipants
. Some explanations on the retrieval
options in this function:
AllInstances
: retrieve all PhysicalEntities and collections of ReferenceEntities. For entities in a ReactionLikeEvent, there would be additional columns type
and numOfEntries
to indicate what are inputs, outputs, catalysts, regulators, and the number of these componentsEventsInPathways
: retrieve all ReactionLikeEvents and subpathways in a given PathwayPhysicalEntities/ReferenceEntities
: retrieve all contained PhysicalEntities/ReferenceEntities of all PhysicalEntities of a given EventTo be more specific, PhysicalEntity instances contain numerous invariant features such as names, molecular structure and links to external databases like UniProt or ChEBI. Thus, Reactome creates instances of the separate ReferenceEntity class that support PhysicalEntity instances. All PhysicalEntity instances have a linked ReferenceEntity instance that captures reference features (such as external identifiers) of a molecule.
Since we’ve known several pathways related to the bone development disease from above results, we might further retrieve ReactionLikeEvents and Pathways in the “hasEvent” attribute of Pathway “Signaling by FGFR1 in disease” (stId R-HSA-5655302):
# Get sub-Events of an Event
fgfr1.signal.reactions <- getParticipants("R-HSA-5655302", retrieval = "EventsInPathways")
head(fgfr1.signal.reactions, 5)
For a ReactionLikeEvent, say “Activated FGFR1 mutants and fusions phosphorylate PLCG1” with identifier R-HSA-1839098, all relative PhysicalEntities and ReferenceEntities could be retrieved:
# Get all Entities of a ReactionLikeEvent
instances.1839098 <- getParticipants("R-HSA-1839098", retrieval = "AllInstances")
instances.1839098
It’s always a good option to visualize the instances in a reaction or pathway for better elucidations. Reactome has diagrams for pathways and reactions that provide information about connected events and their locations. The diagram exporter in Content Service allows users to easily export diagrams in bitmap format. More details see ?exportImage
.
Given either a PhysicalEntity or an Event, the top-level pathways or lower-level pathways that contain it can be retrieved by function getPathways
. In this example, we try with the Complex “Unwinding complex at replication fork [nucleoplasm]” with identifier R-HSA-176949.
Given an identifier in non-Reactome resources, all relative ReferenceEntities could be retrieved by function map2RefEntities
. Here we focus on gene TP53:
## List of 18
## $ dbId : int 69487
## $ displayName : chr "UniProt:P04637 TP53"
## $ databaseName : chr "UniProt"
## $ identifier : chr "P04637"
## $ name :List of 1
## ..$ : chr "TP53"
## $ otherIdentifier :List of 1
## ..$ : chr [1:284] "0005670112" "11738335_x_at" "11748319_x_at" "11748599_a_at" ...
## $ url : chr "http://purl.uniprot.org/uniprot/P04637"
## $ checksum : chr "AD5C149FD8106131"
## $ comment :List of 1
## ..$ : chr "FUNCTION Acts as a tumor suppressor in many tumor types; induces growth arrest or apoptosis depending on the ph"| __truncated__
## $ description :List of 1
## ..$ : chr "recommendedName: Cellular tumor antigen p53 alternativeName: Antigen NY-CO-13 alternativeName: Phosphoprotein"| __truncated__
## $ geneName :List of 1
## ..$ : chr [1:2] "TP53" "P53"
## $ isSequenceChanged : logi FALSE
## $ keyword :List of 1
## ..$ : chr [1:31] "3D-structure" "Acetylation" "Activator" "Alternative promoter usage" ...
## $ secondaryIdentifier:List of 1
## ..$ : chr [1:27] "P53_HUMAN" "Q15086" "Q15087" "Q15088" ...
## $ sequenceLength : int 393
## $ chain :List of 1
## ..$ : chr "chain:1-393"
## $ schemaClass : chr "ReferenceGeneProduct"
## $ className : chr "ReferenceGeneProduct"
This object is linked to UniProt with identifier P04637 and name TP53. Once the Reactome dbId
of a non-Reactome identifier or name is obtained, the PhysicalEntities associated with this non-Reactome identifier can be fetched through retrieving all attributes using query
:
# Extract PhysicalEntities of "TP53"
tp53.all.info <- query(tp53.re$dbId)
head(tp53.all.info$physicalEntity, 5)
Furthermore, non-Reactome identifiers could be mapped to Reactome Events with function map2Events
, therefore we are able to get pathways associated with TP53. If you stick to the gene symbol, you should specify resource = "HGNC"
. Actually this is same as id = P04637, resource = "UniProt"
. For reactions, specify mapTo = "reactions"
.
# Get Pathways associated with "TP53"
tp53.pathways <- map2Events("TP53", resource = "HGNC", species = "human", mapTo = "pathways")
head(tp53.pathways, 5)
A recap for all slots of TP53 Reactome object:
## List of 25
## $ dbId : int 69487
## $ displayName : chr "UniProt:P04637 TP53"
## $ modified :List of 6
## $ databaseName : chr "UniProt"
## $ identifier : chr "P04637"
## $ name : chr "TP53"
## $ otherIdentifier : chr [1:284] "0005670112" "11738335_x_at" "11748319_x_at" "11748599_a_at" ...
## $ url : chr "http://purl.uniprot.org/uniprot/P04637"
## $ crossReference :'data.frame': 267 obs. of 7 variables:
## $ referenceDatabase :List of 7
## $ physicalEntity :'data.frame': 27 obs. of 15 variables:
## $ checksum : chr "AD5C149FD8106131"
## $ comment : chr "FUNCTION Acts as a tumor suppressor in many tumor types; induces growth arrest or apoptosis depending on the ph"| __truncated__
## $ description : chr "recommendedName: Cellular tumor antigen p53 alternativeName: Antigen NY-CO-13 alternativeName: Phosphoprotein"| __truncated__
## $ geneName : chr [1:2] "TP53" "P53"
## $ isSequenceChanged : logi FALSE
## $ keyword : chr [1:31] "3D-structure" "Acetylation" "Activator" "Alternative promoter usage" ...
## $ secondaryIdentifier: chr [1:27] "P53_HUMAN" "Q15086" "Q15087" "Q15088" ...
## $ sequenceLength : int 393
## $ species : int 48887
## $ chain : chr "chain:1-393"
## $ referenceGene :'data.frame': 11 obs. of 9 variables:
## $ referenceTranscript:'data.frame': 15 obs. of 9 variables:
## $ schemaClass : chr "ReferenceGeneProduct"
## $ className : chr "ReferenceGeneProduct"
Non-Reactome identifiers associated with a ReferenceEntity or PhysicalEntity can be found in these attributes of an instance:
identifier
otherIdentifier
crossReference
geneName
secondaryIdentifier
referenceGene
referenceTranscript
Non-Reactome identifiers (primaryIdentifier
, secondaryIdentifier
, and otherIdentifier
) and gene symbols associated with an Event can also be retrieved by function event2Ids
. Here we try with Reaction “Multiple proteins are localized at replication fork” (stId R-HSA-176942):
## List of 4
## $ geneSymbol : chr [1:30] "CDC45" "CDC45L" "CDC45L2" "UNQ374/PRO710" ...
## $ primaryIdentifier :'data.frame': 11 obs. of 2 variables:
## ..$ dbId : int [1:11] 86785 176969 356315 67522 99147 94945 94950 94954 94959 94964 ...
## ..$ displayName: chr [1:11] "UniProt:O75419 CDC45" "UniProt:Q9BRT9 GINS4" "UniProt:Q9BRX5 GINS3" "UniProt:Q14691 GINS1" ...
## $ secondaryIdentifier: chr [1:53] "CDC45_HUMAN" "B4DDB4" "B4DDU3" "E9PDH7" ...
## $ otherIdentifier : chr [1:888] "0000380402" "11719699_a_at" "11745049_a_at" "11751123_a_at" ...
Reactome uses the set of manually curated Human Reactions to computationally infer reactions in fourteen evolutionarily divergent eukaryotic species for which high-quality whole-genome sequence data are available. Therefore a set of high-quality inferred Pathways, Reactions, and PhysicalEntities (proteins) exists in these species. More details about computationally inferred events could be found here.
We can first look at a human pathway “Stabilization of p53” with identifier R-HSA-69541 and the orthologousEvent
slot in its Reactome Pathway object.
# Look into orthologousEvents of this pathway
stab.p53 <- query("R-HSA-69541")
stab.p53[["orthologousEvent"]]
Note that the isInferred
value of this human instance is FALSE
, while those of all its orthologous Events in other species are TRUE
.
## [1] FALSE
Conversely, if you have a non-Human Event or PhysicalEntity instance and want to get all its orthologies in other species, you could use function getOrthology
to fetch the Human orthologous instance first, then repeat the steps above:
query
the result identifierorthologousEvent
attribute## Returning inferred instances of 'R-SSC-69541' in species 'Homo sapiens'...
## $dbId
## [1] 69541
##
## $displayName
## [1] "Stabilization of p53"
##
## $stId
## [1] "R-HSA-69541"
##
## $stIdVersion
## [1] "R-HSA-69541.5"
##
## $isInDisease
## [1] FALSE
##
## $isInferred
## [1] FALSE
##
## $name
## [1] "Stabilization of p53"
##
## $releaseDate
## [1] "2004-07-06"
##
## $speciesName
## [1] "Homo sapiens"
##
## $hasDiagram
## [1] FALSE
##
## $hasEHLD
## [1] FALSE
##
## $schemaClass
## [1] "Pathway"
##
## $className
## [1] "Pathway"
The Reactome diagram exporter has been mentioned a little bit in ‘Instances in Reactions’ section, here we can reconstruct a few more examples.
What’s more, Reactome offers a pathway Analysis Service that supports enrichment and expression analysis. The diagram exporter allows you to overlay the results of the analysis on top of the exported diagrams. To do so, use the token argument to specify the unique token associated with the performed analysis.
The ReactomeGSA package is an R client to the web-based Reactome Analysis Service, so we could perform analysis in R then access the token.
# Install GSA packages
# devtools::install_github("reactome/ReactomeGSA")
# devtools::install_github("reactome/ReactomeGSA.data")
library(ReactomeGSA)
library(ReactomeGSA.data)
data("griss_melanoma_proteomics")
# Create an analysis request and set parameters
my_request <- ReactomeAnalysisRequest(method = "Camera")
my_request <- set_parameters(request = my_request, max_missing_values = 0.5)
my_request <- add_dataset(request = my_request,
expression_values = griss_melanoma_proteomics,
name = "Proteomics",
type = "proteomics_int",
comparison_factor = "condition",
comparison_group_1 = "MOCK",
comparison_group_2 = "MCM",
additional_factors = c("cell.type", "patient.id"))
# Run analysis
result <- perform_reactome_analysis(request = my_request, compress = F)
# Retrieve the fold-change data for the proteomics dataset
proteomics_fc <- get_result(result, type = "fold_changes", name = "Proteomics")
# Merge the pathway level data for all result sets
combined_pathways <- pathways(result)
# Get the analysis token
token <- gsub(".*=", "", result@reactome_links[[1]][["url"]])
# select the id of the pathway with highest foldchange
id <- rownames(combined_pathways[1,])
We could now directly get the diagram in R:
The output image can also saved into a file, details see ?exportImage
.
Further, fireworks - the overview of genome-wide, hierarchical visualization of all Reactome pathways - can be exported:
# Fireworks of Human Pathways
exportImage(species = "9606", output = "fireworks", format = "jpg",
token = token, fireworksCoverage = TRUE, quality = 7)
Full event hierarchy for any given main species in Reactome could be retrieved by function getEventsHierarchy
, usage sees ?getEventsHierarchy
.
Reacome is also able to export Events in SBGN or SBML format besides the pathway diagrams. exportEventFile
could retrieve the content in specified format and save into a file. More details see ?exportEventFile
.
The list of all species in Reactome Database could be retrieved by function getSpecies
. Moreover, you can specify main = TRUE
to obtain the list of main species, those have either manually curated or computationally inferred pathways.
The function getPerson
will return information of a person in Reactome. All attributes in a Person object see here. For instance, to find information about Justin Cook:
## Matching "Justin Cook" with names in current data...
## $dbId
## [1] 9617639
##
## $displayName
## [1] "Cook, J"
##
## $firstname
## [1] "Justin"
##
## $initial
## [1] "J"
##
## $project
## [1] "Reactome"
##
## $surname
## [1] "Cook"
##
## $affiliation
## dbId displayName address
## 1 1169271 Ontario Institute for Cancer Research Toronto ON Canada
## name schemaClass className
## 1 Ontario Institute for Cancer Research, OICR Affiliation Affiliation
##
## $schemaClass
## [1] "Person"
##
## $className
## [1] "Person"
## R version 4.1.0 (2021-05-18)
## Platform: x86_64-pc-linux-gnu (64-bit)
## Running under: Ubuntu 20.04.2 LTS
##
## Matrix products: default
## BLAS: /home/biocbuild/bbs-3.13-bioc/R/lib/libRblas.so
## LAPACK: /home/biocbuild/bbs-3.13-bioc/R/lib/libRlapack.so
##
## locale:
## [1] LC_CTYPE=en_US.UTF-8 LC_NUMERIC=C
## [3] LC_TIME=en_GB LC_COLLATE=C
## [5] LC_MONETARY=en_US.UTF-8 LC_MESSAGES=en_US.UTF-8
## [7] LC_PAPER=en_US.UTF-8 LC_NAME=C
## [9] LC_ADDRESS=C LC_TELEPHONE=C
## [11] LC_MEASUREMENT=en_US.UTF-8 LC_IDENTIFICATION=C
##
## attached base packages:
## [1] stats graphics grDevices utils datasets methods base
##
## other attached packages:
## [1] ReactomeContentService4R_1.0.0
##
## loaded via a namespace (and not attached):
## [1] Rcpp_1.0.6 knitr_1.33 magrittr_2.0.1 doParallel_1.0.16
## [5] R6_2.5.0 jpeg_0.1-8.1 rlang_0.4.11 foreach_1.5.1
## [9] highr_0.9 stringr_1.4.0 httr_1.4.2 tools_4.1.0
## [13] parallel_4.1.0 data.table_1.14.0 xfun_0.23 png_0.1-7
## [17] jquerylib_0.1.4 htmltools_0.5.1.1 iterators_1.0.13 yaml_2.2.1
## [21] digest_0.6.27 vctrs_0.3.8 sass_0.4.0 codetools_0.2-18
## [25] curl_4.3.1 evaluate_0.14 rmarkdown_2.8 stringi_1.6.2
## [29] compiler_4.1.0 bslib_0.2.5.1 magick_2.7.2 jsonlite_1.7.2