interactions_result: Output of 'interactions' function

interactions_resultR Documentation

Output of interactions function

Description

List containing informations about interactions between genes and metabolites, centrality and pathways. Direct interactions extraction was performed using BioPax, KGML and GPML files parsed with PaxtoolsR, graphite and author's parsers.

Usage

data("interactions_result")

Format

List of 8 items.

size

Description on which elements (from user's list or not) are contained in pathways from pathway enrichment analysis. A data frame with 286 rows and 9 variables.

path

Pathways obtained throught pathways enrichment analysis on KEgg, Reactome and Wikipathways pathways.

nb_gene_query

Number of user's genes contained in the pathway (0–2).

gene_que

User's genes contained in the pathway (ACAA1, SLC6A12, ACAA1 # SLC6A12).

nb_gene_tot

Total number of genes contained in the pathway (0–2075).

genes

All the genes contained in the pathway.

nb_meta_query

Number of user's metabolites contained in the pathway (0–2).

meta_que

User's metabolites contained in the pathway (Betaine, ATP, Betaine # ATP, ATP # Betaine).

nb_meta_tot

Total number of metabolites contained in the pathway (0–915).

meta

All the metabolites contained in the pathway.

pathtot

All results of pathways enrichment analysis performed on Kegg, Reactome and Wikipathways pathways. A data frame with 286 rows and 2 variables.

name

Name of pathways resulting in genes pathway enrichment analysis performed on Kegg, Reactome and Wikipathways.

id

Identifiers of pathways resulting in genes pathway enrichment analysis performed on Kegg, Reactome and Wikipathways.

tagged

Description of all direct interactions between user's elements in pathways. A data frame with 11 rows and 6 variables.

from

First element of the direct interaction (Betaine, SLC6A12)

link

Description of how the two elements interact (Control(In: ACTIVATION of BiochemicalReaction), controls-transport-of-chemical).

to

Second element of the direct interaction (Betaine, SLC6A12)

path

Pathway containing the direct interaction (R-HSA-112310, R-HSA-112315, R-HSA-112316, R-HSA-382551, R-HSA-425366, R-HSA-425393, R-HSA-425407, R-HSA-888590, R-HSA-352230, R-HSA-442660, R-HSA-888593)

tag

Summary of elements concerned by the interaction (Betaine / SLC6A12, SLC6A12 / Betaine)

type

Interaction type, can be gene/gene, metabolite/metabolite, or gene/metabolite (g/m)

keggchebiname

Dataframe containing all human metabolites ids (kegg and chebi) and names. A data frame with 16075 rows and 3 variables.

kegg

Kegg_compound identifiers of all human metabolites.

chebi

Chebi identifiers of all human metabolites.

name

Names of all human metabolites.

central

List of pathways, each pathway containing the number of direct interactions between an element of user's list and other elements in the pathway. A list of 138 items.

no_path

Dataframe containing direct interactions between elements from the user's list, but not per pathways. A data frame with 1 rows and 6 variables.

from

First element of the direct interaction (Betaine, SLC6A12)

link

Description of how the two elements interact (Control(In: ACTIVATION of BiochemicalReaction), controls-transport-of-chemical).

to

Second element of the direct interaction (Betaine, SLC6A12)

path

Pathways containing the direct interaction ("R-HSA-112310, R-HSA-112315, R-HSA-112316, R-HSA-382551, R-HSA-425366, R-HSA-425393, R-HSA-425407, R-HSA-888590, R-HSA-352230, R-HSA-442660, R-HSA-888593")

tag

Summary of elements concerned by the interaction (Betaine / SLC6A12)

type

Interaction type, can be gene/gene, metabolite/metabolite, or gene/metabolite (g/m)

genes

Vector containing user's genes (ACAA1, SLC6A12)

meta

Vector containing user's metabolites (C00002, C00719)

Source

interactions function.

References

Luna, A., Babur, O., Aksoy, A. B, Demir, E., Sander, C. (2015).“PaxtoolsR: Pathway Analysis in R Using Pathway Commons.” Bioinformatics.

Sales G, Calura E, Cavalieri D, Romualdi C (2012). “graphite - a Bioconductor package to convert pathway topology to gene network.” BMC Bioinformatics. https://bmcbioinformatics.biomedcentral.com/articles/10 . 1186/1471-2105-13-20.


emiliesecherre/famat documentation built on April 23, 2023, 9:15 p.m.