\name{@ANNOBJPREFIX@PMID} \alias{@ANNOBJPREFIX@PMID} \alias{@ANNOBJPREFIX@PMID2EG} \title{Map between Entrez Gene Identifiers and PubMed Identifiers} \description{ @ANNOBJPREFIX@PMID is an R object that provides mappings between entrez gene identifiers and PubMed identifiers. } \details{ Each entrez gene identifier is mapped to a named vector of PubMed identifiers. The name associated with each vector corresponds to the entrez gene identifier. The length of the vector may be one or greater, depending on how many PubMed identifiers a given entrez gene identifier is mapped to. An \code{NA} is reported for any entrez gene identifier that cannot be mapped to a PubMed identifier. Titles, abstracts, and possibly full texts of articles can be obtained from PubMed by providing a valid PubMed identifier. The pubmed function of annotate can also be used for the same purpose. Mappings were based on data provided by: @PMIDSOURCE@ } \references{ \url{http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?db=PubMed} } \examples{ x <- @ANNOBJPREFIX@PMID # Get the entrez gene identifiers that are mapped to any PubMed ID mapped_genes <- mappedkeys(x) # Convert to a list xx <- as.list(x[mapped_genes]) if(length(xx) > 0){ # The entrez gene identifiers for the first two elements of XX xx[1:2] # Get the first one xx[[1]] if(interactive() && !is.null(xx[[1]]) && !is.na(xx[[1]]) && require(annotate)){ # Gets article information as XML files xmls <- pubmed(xx[[1]], disp = "data") # Views article information using a browser pubmed(xx[[1]], disp = "browser") } } # For the reverse map: # Convert the object to a list xx <- as.list(@ANNOBJPREFIX@PMID2EG) if(length(xx) > 0){ # The entrez gene identifiers for the first two elements of XX xx[1:2] # Get the first one xx[[1]] if(interactive() && require(annotate)){ # Gets article information as XML files for a PubMed id xmls <- pubmed(names(xx)[1], disp = "data") # Views article information using a browser pubmed(names(xx)[1], disp = "browser") } } } \keyword{datasets}