BiGGR-package: Creates an interface to the BiGG database, provides a...

Description Details Author(s) See Also Examples

Description

This package provides an interface to simulate metabolic reconstruction from the BiGG database(http://bigg.ucsd.edu/) and other metabolic reconstruction databases. The package aids in performing flux balance analysis (FBA). Metabolic networks and estimated fluxes can be visualized using hypergraphs.

Details

Package: BiGGR
Type: Package
Version: 0.99.0
Date: 2013-07-10
Depends: R (>= 2.14.0), rsbml, hyperdraw, LIM
Imports: hypergraph
License: GPL (>=2)
URL: http://www.bioconductor.org/
Copyright: see inst/COPYRIGHTS for the license of the BiGG database
biocViews: NetworkAnalysis, Visualization, Metabolomics
LazyLoad: yes
Packaged: 2013-08-05 12:44:08 UTC; hettling
Built: R 3.0.0; ; 2013-08-05 12:44:22 UTC; unix

Index:

 1
 2
 3
 4
 5
 6
 7
 8
 9
10
11
12
13
14
15
16
17
18
19
20
E.coli_iAF1260                                              Ecoli dataset with ORFs and thermodynamic information
E.coli_iJR904                                               Ecoli genome-scale model
Glycolysis                                                  Metabolic reconstruction of Glycolysis pathway
H.pylori_ilT341                                             H.pylori in silico genome-scale characterization of single and double deletion mutants
H.sapiens_Recon_1                                           Reconstruction of human metabolism from the BiGG database
M.barkeri_iAF692                                            Metabolic reconstruction of M.barkeri from the BiGG database
Recon2                                                      Human metabolic reconstruction Recon2
S.aureus_iSB619                                             Metabolic reconstruction of S.aureus from the BiGG database
S.cerevisiae_iND750                                         Metabolic reconstruction of S.cerevisiae from the BiGG database
buildSBMLFromBiGG                                           Build an SBML model from a given reactions file obtained from the BiGG database
buildSBMLFromGenes                                          Build an SBML model for specific genes in a given database
buildSBMLFromPathways                                       Build an SBML model for specific pathway(s) in a given database
buildSBMLFromReactionIDs                                    Build an SBML model for specific reactions in a given database
createLIMFromBiGG                                           Create a LIM model object from a BiGG database file
createLIMFromSBML                                           Create a LIM model object from an SBML file
extractGeneAssociations                                     Extract informations on genes from a given database
extractPathways                                             Extract all pathways from given database
getPathwaysForSBML                                          Extract all pathways from a database that are relevant for a given SBML model
getRates                                                    Get Optimized Rates
sbml2hyperdraw                                              Returns a graph representation of an SBML model

Further information is available in the following vignettes:

BiGGR BiGGR (source, pdf)

Author(s)

Anand K. Gavai, Hannes Hettling

Maintainer: Anand K. Gavai <anand.gavai@bioinformatics.nl>, Hannes Hettling <j.hettling@vu.nl>

See Also

rsbml

Examples

 1
 2
 3
 4
 5
 6
 7
 8
 9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
# library("BiGGR")


library(help="BiGGR")

##load reaction identifiers from package examples
file.name <- system.file("extdata", 
					 "Glycolysis_TCA_recon1_reactionIDs.txt", 
					 package="BiGGR")
reaction.ids <- scan(file.name, what=" ")

##load database
data("H.sapiens_Recon_1")

##build SBML model
sbml.model <- buildSBMLFromReactionIDs(reaction.ids, H.sapiens_Recon_1)

##following term is to be maximized
maximize <- "R_ATPS4m - R_NDPK1m - R_HEX1 - R_PFK - R_PGK + R_PYK"

##specify the external metabolites of the system
externals <- c("M_glc_DASH_D_e", "M_lac_DASH_L_e",
		   "M_ala_DASH_L_e", "M_gln_DASH_L_c", "M_h2o_e",
		   "M_co2_e", "M_o2_e", "M_h_e", "M_pi_c",
		   "M_o2s_m", "M_nh4_m", "M_adp_c",
		   "M_atp_c", "M_nadp_c", "M_nadph_c", "M_h_c")
##specify the values of following fluxes: 
##R_GLCt1r=0.4, R_O2t=2.4, R_L_LACt2r=R_GLNtm=0

equation.vars <- c("R_GLCt1r", "R_O2t", "R_L_LACt2r", "R_GLNtm")
equation.values <- c(0.4, 2.4, 0.0, 0.0)
eqns <- list(equation.vars, equation.values)

##create LIM file 
limfile.name <- tempfile()
createLIMFromSBML(sbml.model, maximize, equations=eqns,
			  externals=externals, file.name=limfile.name)

rates <- getRates(limfile.name)

relevant.species <- c("M_glc_DASH_D_c", "M_g6p_c", "M_f6p_c", 
				  "M_fdp_c", "M_dhap_c", "M_g3p_c", 
				  "M_13dpg_c", "M_3pg_c", "M_2pg_c", 
				  "M_pep_c", "M_pyr_c")
##generate graphical representation
hd <- sbml2hyperdraw(sbml.model, rates=rates, 
				 relevant.species=relevant.species, 
				 layoutType="dot", plt.margins=c(20, 0, 20, 0))

##plot hypergraph
plot(hd)

hettling/BiGGR documentation built on April 17, 2020, 5:19 a.m.